Download - Pershing 1a Field Service Data Notebook
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PERSHING la FIELD SERVICE DATA NOTEBOOK
he Field Service Data Notebook is changed as fol lows:
1. The attached new pages, as enumerated be low, wi ll be inserted in the manua l and the old pages
_,1ill be removed. New or changed material in t hese pages is indicated by a vertical line in the margin of the page or by the FSNB or Ml number of t he illustrations. Extensively changed or added ch ap•ers , tables, etc, are indicated by a vertical line by
'-fhe title only.
Remove pages
l · l l ·3, 1·4 1·4.111·4.2 1·5 thru 1-8 1·8. 1 thru1-8.4 1·9, 1· 10 2·3 thru 2•8 2·13, 2-14 4-1 thru 4-8.2 4·9 thru 4· 12.4 4·15 thru 4- 18 4·21, 4·22 4·25 t hru 4-28 4-31, 4·32 5·3, 5.4 6·3, 6-4 7 · l 7-3, 7.4 9·1, 9·2 9·9 thru 9·14 9.49
C4, 30 September 1972
Insert pages
1·111·2 l ·3 , l ·4 l ·4. 111 ·4.2 1·5 t hru 1·8 l ·8. 1 thru l ·8.4 1·9 t hru 1·10.2 2·3 thru 2-8 2·13, 2·14 4·1 thru 4-8 4-9 thru 4-12.6 4-15 t hru 4·18 4-21, 4-22 4·25 thru 4·28 4·31. 4-32 5·3, 5.4 6-3, 6-4 7·1 th ru 7-2.2 7-3, 7.4 9·1 , 9· 2 9-9 thru 9· 14 9·49, 9·50
,.
Remove pages
None 10-1 10-9, 10-10 10-10.1 10-11thru10-16.2 10-17thru 10-21 11-5, 11 -6 14-5, 14-6 15-27, 15-28 15-31, 15-32
Insert pages
9-51 thru 9-58 10-1/1 0-2 10-9, 10-10 None 10-11thru10-16 10-17, 10-18 11 -5, 11-6 14-5, 14-6 15-27, 15-28 15-31, 15-32
2. Retain the tra nsmittal sheet in the front of the manual for future reference.
C4
Item
CHAPTER 1 SYSTEM
(CONTENTS)
Commonly used abbreviations ........... . Firing position ..................................... . Firing position cabling
diagram ....................... ......... ...... ...... . Firing site torque values ..................... . Misfire ................................................. . Nomenclature cross-reference .......... . Safety considerations ......................... . Typical QRA position of equipment
for alert readiness status ................ .
C4
Reference Page I Ta ble 1-3 1-10 Fig. 1-1 1-8. 1
Fig. 1-1.1 1-8.2 Table 1-2 1-7
Par. 1-2 1-4 Table 1-1 1-4.1
Par. 1-1 1-3
Fig. 1-2 1-9
1-1/ (1·2 blank)
PERSHING la FIELD SERVICE DATA NOTEBOOK
The Field Service Data Notebook 1s changed as follows:
1. The attached new pages, as enumerated below. will be inserted in the manual and the old pages will be removed. New or changed material in these pages is indicated by a vertical line in the margin of the page or by the FSNB or MI number of the illustrations. Extensively changed or added chapters, tables, etc, are indicated by a vertical line by the title only.
Remove pages
i, ii 1-3. 1-4 1-4.1 1-5, 1-6 1-8.1 thru 1-8.3 1-13 2-3. 2-4 2-7. 2-8 2-13, 2-14 3-3 thru 3-8 4-7. 4-8 None None 4-13. 4-14 4-14.1 4-31 thru 4-36 5-3 thru 5-6 7-7. 7-8 8-3 thru 8-6 9-11. 9-12 9-29. 9-30
C3, 30 AUGUST 1971
Insert pages
i, ii 1-3, 1-4 1-4.1/ 1-4.2 1-5, 1-6 1-8.1 thru 1-8.4 1-13/ 1-14 2-3, 2-4 2-7' 2-8 2-13, 2-14 3-3 thru 3-8 4-7, 4-8 4-8.1/ 4-8.2 4-12.3/ 4-12.4 4-13, 4-14 4-14.1, 4-14.2 4-31 thru 4-36 5-3 t hru 5-6 7-7, 7-8 8-3 thru 8-6 9-11 . 9-12 9-29. 9-30
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10-5 thru 10-10 10-15, 10-16 None 10-17 thru 10-20 12-3, 12-4 13-3 thru 13-8 14-3 thru 14-8 None 15-3, 15-4 15-13, 15-14
Insert pages
10-5 thru 10-10 10-15, 10-16 10-16.1/10-16.2 10-17 thru 10-20 12-3, 12-4 13-3 thru 13-8 14-3 thru 14-8 14-8.1/14-8.2 15-3, 15-4 15-13, 15-14
2. Retain the transmittal sheet in the front of the manual for future reference.
C3
PERSHING 1 a FIELD SERVICE DATA NOTEBOOK
The Field Service Data Notebook 1s changed as follows:
1. The attached new pages, as enumerated below, will be inserted in the manual and the old pages will be removed. New or changed material in these pages is indicated by a vertical line in the margin of the page or by the FSNB or MI number of the illustrations. Extensively changed or added chapters, tables, etc, are indicated by a vertical line by the title only.
Remove pages
i , ii 1-3, 1-4 1-4.1 1-5 thru 1-8 1-8.1 1-9, 1-10 1-13 2-9 thru 2-14 3-3 thru 3-8 4-1 4-3 thru 4-6 4-9, 4-10 4-14. l 4-15, 4-16 4-31, 4-32 4-35, 4-36 6-3,6-4 7-3 thru 7-8 9-5 thru 9-8 9-15, 9-16 9-19, 9-20 9-43 thru 9-46
C2, 4 September 1970
I naert pages
i, ii 1-3. 1-4 1-4.1 1-5 thru 1-8 1-8.1 thru 1-8.3 1-9, 1-10 1-13 2-9 thru 2-14 3-3 thru 3-8 4-1 4-3 thru 4-6 4-9, 4-10 4-14.1 4-15, 4-16 4-31, 4-32 4-35, 4-36 6-3. 6-4 7-3 thru 7-8 9-5 thru 9-8 9-15, 9-16 9-19, 9-20 9-43 thru 9-46
r Remove pages
10-1 10-5, 10-6 10-9, 10-10 10-11, 10-12 10-17 thru 10-20 11-3. 11-4 13-5, 13-6 None 13-7. 13-8
l nsert pages
10-1 10-5. 10-6 10-9, 10-10 10-ll. 10-12 10-17 thru 10-20 ll-3. 11-4 13-5. 1'3-6 13-6.1 , 13-6.2 13-7, 13-8
2. Retain the transmittal sheet in the front of the manual for future reference.
C2
PERSHING 1 a FIELD SERVICE DATA NOTEBOOK
The original issue of the Field Service Data Notebook is ch'anged as follows:
1. The attached new pages, as enumerated below, will be inserted in the manual and the old pages will be removed. New or changed material in these pages is indicated by a vertical .. Jine in the margin of the page or by the FSNB or MI number of the illustrations. Extensively changed or added chapters, tables, etc, are indicated by a vertical line by the title only.
Remove pages Insert pages
i , ii i, ii 1-3, 1-4 1-3, 1-4 None 1-4.1 1-7, 1-8 1-7, 1-8 None 1-8.1 1-9 thru 1-13 1-9 thru 1-13 2-3, 2-4 2-3, 2-4 2-9 thru 2-14 2-9 thru 2-14 3-3 thru 3-8 3-3 thru 3-8 4-5 thru 4-12 4-5 thru 4-12 None 4-12.1, 4-12.2 4-13, 4-14 4-13, 4-14 None 4-14.1 4-15 thru 4-39 4-15 thru 4-39 &-1 5-1 &-3 thru 5-6 5-3 thru 5-7 6-3 thru 6-6 6-3 thru 6-6 7-3 thru 7-8 7-3 thru 7-8 8-3 thru 8-6 8-3 thru 8-6
Cl, 17 APRIL 1970
Remove pages Insert pages
9-1. 9-2 9-1, 9-2 9-5, 9-6 9-5, 9-6 9-9 thru 9-36 9-9 thru 9-36 9-43 thru 9-48 9-43 t hru 9-49 10-1 10-1 10-3 thru 10-10 10-3 t hru 10-10 None 10-10.l 10-11 thru 10-14 10-11 thru 10-14 10-17 thru 10-21 10-17 thru 10-21 11-3 thru 11-6 11-3 thru 11-6 12-3 thru 12-5 12-3 thru 12-5 13-3 thru 13-6 13-3 thru 13-6 13-9 13-9 14-3 thru 14-11 14-3 thru 14-10
2. Retain the transmittal sheet in the front of the manual for future reference.
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NOTICE
The PERSHING la Field Service Data Notebook contains reference information and data pertinent to the PERSHING la Field Artillery Missile System. The material contained herein is not to be used in lieu of information, procedures, and technical data contained in Department of the ArmY. Technical Manuals. The tactical firing procedures containea..,.i in TM 9-1425-381-10 are to be used at all times during
I firing battery operations. Recommendations for changes or improvements should be submitted to:
Martin Marietta Corp. ATTN: Chief, Pershing Logistics Engineering MP 486 P.O. Box 5837 Orlando, Fla. 32805
MARGIN INDEX
To use, bend outer edge of book backwards; then follow margin index of desired chapter to page with black edge marker.
ii
Issued by the PERSHING Project Manager's Office, Redstone Arsenal, Alabama 35809,
for informal use.
C3
.......,
..,,,,,,
Chapter
1.
2.
3.
4 .
5.
6.
7.
8.
9 .
10.
11.
12.
13.
14.
15.
PERSHING la FIELD SERVICE DATA NOTEBOOK
Page
System ........................................... ...... 1-1
Missile, conta iners, blankets, and hoisting beams....... ............ ..... ........... 2-1
Erector-launcher... ................. ............ .... 3-1
Programmer-test station ......................... 4-1
Power station .............. .......... ...... .......... 5- 1
Azimuth laying set .. ......................... .. .... 6-1
Battery contro l centra l .... .. ...................... 7 · l
Radio terminal set.. .. ...... ............. ........... 8 ·1
Cable data .... ...... .. ..... .... ............ ........... 9 · l
System components test station .... .. ......... 10· l
Shop sets.. ................ ............................ 11 · l
Power station equivalent.. ...... .. .. .. ........... 12-1
II II Ill Ill II Ill Ill Ill Ill Ill II II
Vehicles .... ..... .. .. ........ ........... ..... ..... .. ... . 13- 1 II Pu blicat ions ................................ .. ....... .
Conversion tables ...... ... ........................ .
14· l
15-1
iii
II II
r
Item
CHAPTER 1 SYSTEM
(CONTENTS)
Commonly used abbreviations .......... . Firing position ............................... .. Firing site torque values .................. . Misfire ................... . .. ... .. ............ .... . Nomenclatu re cross-reference ........ .. Safety considerations ..................... .. Typical position of equipment for
QRA . ... ............... .... ... ................. .
Reference
Table 1·3 Fig. l · l
Table 1-2 Par. 1·2
Table l ·l Par. 1-1
Fig. 1·2
Page II 1-10
1-8 l · 7 1·3 1-4 1-3
1·9
1- 1
r
CHA PTER 1 SYST EM
1-1 . Safety Considerations.
I WARN ING I Do not apply full power sim ultaneously to two miss iles if they are posit ioned closer than 55 meter s ( 180 feet) .
a. Blast Area.
To provide personnel safety from missile blast during fi ring. per · sonnel are evacuated to a position at least 150 meters (492 feet ) from the missile. Personnel are evacuated as soon as the ir duties have been completed. The last man leaves the immedia te fi ring position approximately 15 seconds before the FIRE I swi tches are pressed; however, the FIRE swi tches wi ll not be pressed unti l all personnel have reached the proper distance. All loose or fl ammable items of equ ipment must be clea red f rom the initial blast area prior to fi ring. The ini t ial blast area extends to either side of the blast deflector, and includes t hat area within a 50 ° sector from the center of the blast deflector out to a distance of 55 meters (180 feet ).
b. Genera l Precaut ions.
( 1 ) Personn el must be fam iliar with and must ob· serve all sa fety precautions when working on or hand lin g electronic equipment, high.pressure air systems, haza rdous solvents, and toxic and fla mma ble chemica ls . Fa ilure to observe safety precautions may result in death or severe inj ury.
( 2 ) Personn el within the area du r ing prepa ration and fir ing of the missile wil l be lim ited to those necessa ry to accomplish the opera tion.
( 3) Dr illing equipment of any type wil l not be used in the modi fica tion of items con tain ing explosives.
( 4 ) For preca utions pertainin g to nuclea r warhea d operat ions and han dling, refer to TM 9·1 100·375·12.
C4 1-3
I c. Personnel Safety During an Electrical Storm.
I WARNING I Protect personnel from lightning.
The missile on the EL is susceptible to lightn ing strikes. This threat is greatly increased when the missile is vertical. When the commander determines that the threat of an electrical storm is imminent, he will insure that the missile is lowered and personnel are cleared from the immediate vicinity of the equip· men! when such action will not interfere wi th accomplishment of his mission.
I c.l. Equipment Sa fety During an Electrical Storm.
I CAU~ION I Protect equipment from lightning.
(1) The fir i ng position equipment, especia lly in the standby configuration, is vulnerable to lightning strikes. When the commander determines that the threat of an electrical storm is imminent, he will insure that cables 60W18, 60W105, and 60W109 are disconnected at both ends when such action will not interfere with his mission.
(2) In order to resume alert readiness status withou t delay after the threat of electrical storm passes, the commander will insure that all cables are connected and that missile conditioning is restored.
d. Power Station Refueling. The power station, refueling pump, and hose nozzles must be grounded , and operable fire fighting equipment must be present du r ing fueling opera t ions.
1-2. Misfire.
A misfire condition exists when a tactica l missile fails to achieve lift-off after the FIRE switches are pressed the second time. A misfire occu rr ing before cable mast ejection 1s considered to be safe. A misfire occurring after cable mast ejection is considered to be unsafe, since a haza rdous situation, such as motor explosion, may exist. If th e norma l seq uence of events does not occur after the FIRE switches are pressed on the remote f iring box , the un it commander is notified immediately; then, as di-
1-4 C4
r rected by the unit commander, the procedures prescribed "' in TM 9-1425·381-10 are performed.
Table l · 1 • Nomenclature Cross-Reference
Common
AC generator set, or ac power trailer
Assembly tester
Azimuth laying container
Azimuth laying control box or ALCB
Azimuth laying set
Azimuth laying training set
Battery control central or BCC
Card and module test set or CMTS
Computer
Countdown control panel assembly or CDCP
Cradle
Crane pack lifting sling set
Erector-launcher 10-kw generator and spare wheel assembly mounting kit
C4
Official
Trailer Mounted Diesel Engine I Generator Set PU ·614/M
Electronic Circuit Plug-In Unit Test Set OQ-25/MSM-94
Guided Missile Azimuth Laying Set Shipping and Storage Con· tainer XM521 and XM522
Guided Missile Azimuth Orienta· tion Control Box C-7767 /G
Guided Missile Azimuth Laying Set XM78
Guided Missile Azimuth Laying Training Set XM79
Guided Missile Battery Control Central AN/MSW·8
Electronic Circuit Plug-In Unit Test Set TS-2604/TSM-87
Missile Programmer· Test Sta· tion Computer CP-988/TSM· 87
Missile Programmer-Test Sta· tion Countdown Control Unit AN/TSA-32
Atomic Warhead Section Cradle H4211B-1
Multiple Leg Sling XM28
Guided Missile EquipmentVehicle Accessory Kit XM219
1·4.1/(1·4.2 blank)
r
Table 1-1 . Nomenclature CrossReference-Contin ued
Common
Erector-launcher or EL
First and second stage cradle
First stage
First stage blanket
I._/ First stage container
First stage hoisting beam
Guidance section blanket
Guidance section container
Guidance section hoisting beam
Guidance section or GS
Instant air cylinder and support rack assembly
Maintenance panel l._,I assembly or MP
Missile
Official
Guided Missile Semitrailer Mounted Erector-Launcher XM790
Guided Missile Section Cradle XM12
Guided Missile Propulsion Sec· tion XMlOl
Electrically Heated Guided Missile Section Blanket XM7
Guided Missile Propulsion Section Shipping and Storage Coo· tainer XM475
Guided Missile Hoisting Beam XM33
Electrically Heated Guided Missile Section Blanket XM6
Guided Missile Guidance Section Shipping and Storage Container XM474
Guided Missile Hoisting Beam XM32
Guided Missile Guidance Section I AN/DJW-28 or AN/DJW-35
Air Servicer, Guided Missile Gyroscope
Missile Programmer-Test Sta· tion Fault Locator AN/TSA-31
Surface Attack Guided Missile XMGM-31A
Mounting kit Mounting Kit, Power Station
Pneumatic test console Guided Missile Pneumatic Test ~ Set AN/MSM-96
Power distribution set
C3
Guided Missile System Power Dis· tribution Set AN/GSA-109 or AN/GSA-111
1-5
Table 1-1 • Nomenclature CrossReference-Continued
Common
Power station equivalent or PSE
Power station or PS
Programmer-test station or PTS
Programmer-test station/power station mounting kit
Protector-sling
Radio terminal set and winterization heater mounting kit
Radio terminal set or RTS
Radio terminal set 10-kw generator mounting kit
SCTS
SCTS van
Second stage
Second stage blanket
Second stage container
'
Second stage hoisting beam
Shelter
1-6
Official
Trailer Mounted Guided Missile System Power Station AN/ MJQ-3
Transportable Guided Missile System Power Station AN/T JQ-3
Transportable Guided Missile Programmer-Test Station AN/ TSM-87
Transportable Guided Missile Equipment Mounting Kit
Atomic Warhead Section Protector-Sling H42l18-2
Transportable Guided Missile Equipment Mounting Kit
Radio Terminal Set AN/TRC-80
Guided Missile Equipment Mount· ing Kit XM 184
Semitrailer Mounted Guided Mis· sile System-System Components Test Station AN/MSM-94
6-Ton 2-Wheel Electronic Van Semitrailer 373A2
Guided Missile Propulsion Section XM102
Electrically Heated Guided Missile Section Blanket XM9
Guided Missile Propulsion Section Shipping and Storage Container XM4 76
Guided Missile Hoisting Beam XM33
Electrical Equipment Shelter S· 367 /TSM-87
C4
r
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\._/
'...J
Table 1-1. Nomenclature CrossReference-Continued
Common Official
Shipping container Multiple Leg Sling XM27 sling
T-zero tactical T-Zero Tactical Simulator Guided simulator Missile System Training Set
Tape reader Punched Tape Reader MX-7874/ TSM-87
Trainer Training Guided Missile XM-19
Warhead section Atomic Warhead Section XM28, or WS XM141, or XM142
WS container Atomic Warhead Section Shipping and Storage Container XM483
Table 1-2. Firing Site Torque Values
Item
Air vanes
Air vanes (in container)
Torque
22 in.-lb
27 in.-lb
~ Azimuth ring clamp assembly screws
100 ft-lb (with missile); 18 ft-lb (without missile)
Azimuth ring clamp release 108 in.-lb mechanism (before ring clamp installation)
~ Azimuth ring clamp release mechanism (after ring clamp installation)
Connector adapter
C4
120 in.-lb
Until adapter is seated firmly against connector shoulder, not exceeding 85 ft-lb torque. I
1-7
( Table 1-2. Firing Site Torque Values-Continued ' Item Torque
Connector receptacle retaining nut
Shell size 12 12 ft-lb Shell size 16 20 ft-lb Shell size 20 29 ft-lb
Container cover (WS) 47 ft-lb
Explosive bolt cartridges (det- 50 in.-lb onators)
Forward and rear clamp ring 17 ft-lb (guidance section container)
Forward clamp ring bolts 25 ft-lb (1st stage con- -ta in er); 17 ft-lb (2nd stage con-
ta in er)
I Initiators (1st and 2nd stages) 15 ft-lb
Jet vane retainer bolt 35 in.-lb
Rear clamp ring bolts (1st and 50 ft-lb 2nd stage containers)
I Splice band nuts (2nd 45 ft-lb stage·to-guidance section)
I Retaining ring nuts 50 ft-lb (with missile); 20 ft-lb (without missile)
I Rocket motor port plugs 16 ft-lb
Shaped charge retainerassem- 10 in.-lb ~ blies (rear screws only)
I Splice band nuts (1st stage· 45 ft-lb to-2nd stage)
I Splice band nuts (guidance 23 ft-lb (with warhead sec-section-to-WS) tion): ~
10 ft-lb (without warhead section)
Warhead section support plate 55 in.-lb splice band bolt
"'-'
1-8 C4
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~ =::::: ::::!.-.. ~~=:· ,::::::,';" :.;::::.~:.7-:0~· ,.,, .... ., ... , • ""• ,._,. c..,IOl#CI •-o 1r.-.ouo ,..,, _,. ~•r ;',,':;:•:i"O~:t,.;z;e i~·-:1 ~,~•f.-J,-::f :':' .':a':w~'14
1 "HO O••f tf>ll IMl•H•Cr ., .. ,,_, "' ,.. I llUO 0"''' IOlt 1fll rtuf17 11tl•r1tti 0' •rt 9 WJfO d ll'lf.14111 ,,__.,.,~ 1J ·J,.( 1 u•r1 H "'°""· 10 ~•OWtff "'""fl •.WO •" ""'°""U '•••Alt~ t " 111110 "" ,., "•ffS1r "fl''""" °' ,...,. o"''"""'' '''''°"'· 11wo1r ,,,......_ .. ,,o~r,...~""'"'"-'°""''· ,, ,,, ,.,n,,,..., ro "'s< .urct•?'oON•c. •••1 ~ to-tt'r -.•111cr1 Al "'60floll0
11111 •H•ICI
Figure 1-1.1. Firing position cabling diagram (sheet 2 of 2).
1-8.3/(1-8.4 blank)
/Jlr r' ~';
'
"''' .. ltH1 "''
"''" ..... 0U'IOAHC1 HCUOH
"\ 1 \
Cl
Ot JOIO>O ,..
1 .. IO!t•H)
1•$ f0UM ,,.10•1n1
"~
r ?010>0 1
tUIOtl •
I
HOtU
IHJh,i .L IUll .. .,.
l LOCAnc>H Of U.UNCM f'OtHT1 Wkl UHO aosu '"-4" u -.nru 112 rtrT).
1. •1H0te .tmu.0"10&.
Figure 1-2. Typical QRA position of equipment in alert readiness status.
1-9
I
Table 1-3. Commonly Used Abbreviations
AA AC/DC DVM ACAS ACS ADJ ADV ALCB ALCP AMPL AOL AOT AOU AUTO AUX B BCC CAS cc CDCP CDP CE CFS CM CM CMA CMPNT CMTS CNM CORR CPE CR CRD CRV DEM OD DIM DIR DIRAD DOM DP DR DR EAC EBW EL
1-10
aiming azimuth ac/ de differential voltmeter assistant chief of ammunition section assistant chief of section adjust advance azimuth laying control box azimuth laying control panel amplifier altitude of launch altitude of target azimuth oriented unit automatic auxiliary signal bus battery control central chief of ammunition section capacitor module countdown control panel central data processor command element chief of firing section command module crewman cable mast assembly component card and module test set circuit network module correct circular probable error cross range cross range displacement cross range velocity demodulator data input multiplex data input register data input register to adder data output multiplex fuze decrement constant data register driver (vehicle) end around carry e~ploding bridgewire erector-launcher
C4
r
C4
Table 1-3. Commonly Used AbbreviationsContinued
EMP ENA ENC ENDIR
electro-magnetic pulse enable A register enable C register enable data input register
1-10.1/(1·10.2 blank)
I
r-
Table 1-3 . Commonly Used Abbreviations-Continued
ENF enable F register ENP enable program counter ENXL enable index location register EOL easting of launch EOT ea sting of target EXT exte rnal FA firing azimuth FAM firing azimuth in mils FAS fi eld alert status I FASV fi eld alert status verification FC MON ITOR frequency and constant monitor FDT fac il ities distribution t ra iler FF flip- flop FIL filtered FS firing section FSN Federal stock numbe r GEN generator GNC grid north correction GSR genera I support ro le HEFU high energy firing un it HEIS high energy initiate system HLT horizontal laying theodolite HOB height of burst HPS high -pressure switch Hz Hertz (cycles per second) INTG integrator INV inverter INVR inverter 1/0 input/output IR input register IRI information readout indicator LAL latitude of launch LAT latitude of ta rget LAY laying LC long coast LCP launch control panel assembly I LOL longitude of launch LOT longitude of target LPS low-pressure switch LSB least significant bit
..,,,, LSD least significant digit LSH least significant half
Cl 1- 11
Table 1-3 . Commonly Used Abbreviations-Continued
M monitor module M multiplier consta nt MAM memory address multiplex MB measurement bus MCP master control panel MD matrix driver MOE manual data entry ME monitor element MEAS measurement MH missile handler MM monitor module
IMOD modulator MON monitor MP maintenance panel MSB most significant bit MSD most significant digit MSH most significant ha If NOL northing of launch NOT northing of target NSG north seeking gyro OIC officer in charge OL orienting line OLT orienting line target OP operation OP operator OR output register OST orienting station theodolite p program
I PC printed circuit PDB power distribution box PDS power distribution system
I PLATF platform PPS programmable power supply PR printer-receiver PS power sta tion PSE power station equivalent PTS programmer-test station PVC programmable voltage comparator PWR power Q slant range velocity QD quick disconnect QRA quick reaction alert R reset (relay)
1-12 Cl
r Table 1-3. Commonly Used Abbreviations-Continued
REF reference .REG regulated
I.._/ RET return RFB remote firing box RFBB remote firing box bus
I RFI radio frequency interference RG range RGZ range beyond ground zero
\.,,I RTS radio terminal set s set (relay) • SA slant altitude SAD slant altitude displacement SAV slant altitude velocity
~ SC short coast SCR silicon controlled rectifier scs silicon controlled switch SCTS system components test station SIM simulate S/N serial number SRO slant range displacemefrt SRV slant range velocity SUB substitute command SUPV supervisor T guidance cutoff coefficient TAT target atmosphere TEMP tern pera t~ re TFS thermal fuze battery ignition time tHEOO theodolite TN test number
....,,., TP test point TPRD tape reader UN REG u n regulated UUT unit under test VK fuze reference velocity VLT vertical laying theodolite
~ ws warhead section WSS warhead section simulator assembly
C3 1-13/(1·14 blank)
yr ; ~,, "\
r CHAPTER 2
MISSILE, CONTAINERS, BLANKETS, AND HOISTING BEAMS
(CONTENTS)
Item Reference Page
MISSILE • ...., Missile section skin surface damage criteria, maximum limits ...............................•..... Table 2·1 2-4
PERSHING missile ..•.•.•...•..•....... Fig. 2-1 2-6 Surface damage criteria .•........... Par. 2-1 2-3 Warhead section ablative coating
'..._) damagEt criteria, maximum limits ..•...•.•.............•.•....•....... Table 2·2 2-5
CONTAINERS First stage shipping and storage
container ............................... Fig. 2·2 2-9 Guidance section shipping and
storage container .................... Fig. 2·4 2-11 Humidity indications .................. Par. 2-3 2-7 Relative humidity indications ....... Table 2·3 2-8 Second stage shipping and
storage container .................... Fig. 2-3 2-10 Tabulated data .......................... Par. 2-2 2-7 Warhead section shipping and
storage container .................... Fig. 2-5 2-12
BLANKETS First stage blanket ..................... Fig. 2·6 2-14
"WI Guidance section blanket ............ Fig. 2-8 2-18 Second stage blanket ................. Fig. 2-7 2-16 Use of blankets ......................... Par. 2-4 2-13 Warhead section blanket ............ Fig. 2-9 2-i9
HOISTING BEAMS
~ Ancillary equipment tiedown kit. .. Par. 2-5 2-20 Hoisting beams .......................... Fig. 2-10 2-21 Hoisting beam storage on
wrecker M543 ........................ Fig. 2-11 2-22
2·1
r
r
1...J
CHAPTER 2 MISSILE, CONTAINERS, BLANKETS,
AND HOISTING BEAMS
MISSILE
2-1. Surface Damage Criteria.
a. General. This paragraph specifies the surface damage criteria for accepting or rejecting the first and second stages, the guidance section, and the warhead section. The depth of surface defects can be determined with a standard dial-indicating ·depth micrometer. The maximum depth limits for scratches and gouges listed below are based on the assumption that the surface finish in the damaged area has not been removed. If the finish is re· moved, the allowable depth is 0.003 inch less than speci· fied. This limitation does not apply to dents. Refer to TM 9-1100-375·12, TM 9-1410-375·34/l, and TM 9·1410-375·1 35 for additional damage criteria information.
b. Definitions.
( 1) Crack. A partial fracture; when the part is not completely divided.
( 2) Dent. A slight depression; a small, smoothly rounded hollow in a surface.
( 3) Gouge. Displacement of material from a surface, due to a cutting or tearing action.
( 4) Nick. A sharp indentation in a surface, especially on an edged part.
( 5) Open skin area. The area of skin surface that is not reinforced and is not between reinforcing rivets, spot welds, bolts, etc.
( 6) Reinforced skin area. The area of skin surface that is reinforced from within and is between the rein· forcing rivets, spot welds, bolts, etc.
( 7) Scrape.- A broad scratch; a shallow surface blemish.
( 8) Scratch. Narrow and shallow displacement of material from a surface.
C4 2-3
N .,.. (") ~
Tabl
e 2-
1.
Mis
sile
Sec
tion
Skin
Sur
face
Dam
age
Cri
teri
a, M
axim
um L
imits
Scr
atch
es a
nd
gou
ges'
N
icks
Dep
th (
in.)
Dep
th (
in.)
Op
en
Rei
n·
Ope
n R
ein
· le
ng
th
skin
fo
rced
le
ng
th
skin
fo
rced
Ite
m'
(in
.)
area
1 ar
ea'
(in.
) ar
ea'
area
'
Fir
st s
tag
e:
Aft
bod
y se
ctio
n
7-3
14
0.0
14
0
.02
5
0.1
00
0
. 02
5
0.0
45
F
orw
ard
ski
rt
2 0
.01
3
0.0
21
0
.10
0
0.0
23
0
.03
9
Gui
danc
e se
ctio
n
6 0
.01
0
0.0
18
0.1
00
0
.01
8
0.0
35
(a
ll su
rfa
ces)
Sec
ond
sta
ge
: A
ft b
ody
sect
ion
9
·314
0
.01
2
0.0
21
1
.00
0
.021
0
.03
9
Fo
rwa
rd s
kirt
4
0.0
10
0
.018
0
.10
0
0.0
17
0
.03
3
' If
the
fini
sh is
rem
oved
. th
e a
llow
able
dep
th is
0.0
03
inc
h le
ss t
han
spe
cifie
d.
' M
axim
um o
f tw
o s
cra
tch
es
or
goug
es in
any
8-i
nch
squ
are
.
Den
t s'
Slo
pe
len
gth
W
idth
D
epth
ra
te
4.0
0
4.0
0
0.0
80
0
.03
0
4.0
0
4.0
0
0.0
80
0
.03
0
4.0
0
4.0
0
0.0
63
0
.03
0
4.0
0
4.0
0
0.0
80
0
.03
0
4.0
0
4.0
0
0.0
72
0
.03
0
' N
o tw
o d
ents
ha
vin
g a
dep
th g
rea
ter
than
0.0
20
in
ch m
ay b
e w
ithin
10
inch
es o
f ad
jace
nt e
dges
. N
ot
mo
re t
han
fou
r de
nts
h
avi
ng
a d
ep
th g
rea
ter
than
0.0
10
but
le
ss
than
0.0
20
inc
h m
ay b
e co
ntai
ned
in a
ny 8
-in
ch s
quar
e. A
ny
de
nt
havi
ng a
d
ep
th g
rea
ter
than
0.0
20
inc
h w
ill b
e dy
e p
en
etr
an
t te
ste
d f
or s
urf
ace
cra
cks.
Pre
senc
e o
f su
rfac
e cr
acks
is
caus
e fo
r re
ject
ion
.
I
r Table 2-2. Warhead Section Ablative
Coating Damage Criteria, Maximum Limits
Chips, scratches, dents
Length Depth Area Item (in.) (in.) (sq in.)
Forward surface 3 0.030 0.25 (nose cone)
Aft area 6 0.062 0.50
c. Motor Bottle Cylindrical Outer Surface.
( 1 ) Scratches. Any scratch that penetrates the pro· tective finish into the metal is cause for rejection. If only the protective finish has been damaged, it may be repaired.
( 2) Dents. Any dent is cause for rejection.
d. Missile Components. For maximum acceptable limits of damage to the surfaces of missile components, refer to DS maintenance.
e. Air Vanes (flat Surfaces).
( 1) Depth of scratch or gouge: 0.02 inch
( 2) Width of scratch or gouge: 0.05 inch
( 3) Spa nwise (direction from inside edge to outside edge of vane) length of scratch or gouge: 3.0 inches
( 4) Chordwise (direction from leading edge to trail· ing edge of vane) length of scratch or gouge: 5.0 inches
f. Air Vanes (Leading Edge).
( 1) Tip damage along leading, inner, or outer edges: 1.0 inch
(2) Total tip damage: 0.5 square inch
( 3) Depth of nicks: 0.1 O inch
( 4) Does not include more than three nicks (depths): 0.03 inch
I
g. Jet Vanes. I Any damage to jet vane may be cause for rejection. Replace damaged jet vane and refer jet vane to OS for dye penetrant test and disposition.
C4 2-5
N °'
FIR
ST
S
TA
GE
S
EC
ON
D
ST
AG
E
GU
IDA
NC
E
SE
CT
ION
40
.0IN
. 1 /
(1.0
2 M
) 01
Ii~ 2 AIR
VA
NE
L
OC
AT
ION
S)
(SE
E N
OT
E 1
NO
TE
S:
1. A
IR V
AN
E 1
IS L
OC
AT
ED
UN
DE
R H
OR
IZO
NT
AL
MIS
SIL
E W
HE
N O
N E
L.
2. A
PP
RO
X
WE
IGH
T:
10,2
75 L
B (
4,6
64
KG
).
Figu
re 2
-1.
PE
RS
HIN
G m
issi
le.
(>
(:
{ {
(
WA
RH
EA
D
SE
CT
ION
FS
NB
-5
{
\ _)
r
·..,.;
CONTAINERS
2-2. Tabulated Data.
Weights of tactically loaded truck M55 with:
First stage in container ............... 32, 793 lb {14,874 kg) Second stage and guidance section
in containers .......................... 33,480 lb {l 5, 186 kg) Warhead section in container ...... 27, l 06 lb ( 12,295 kg)
2-3. Humidity Indications.
a. General. Table 2.3 lists the humidity indications for checking the internal relative humidity of missile section containers. For additional information related to humidity indi-1 cator, refer to TM 9-8140-380-24.
b. Indicator Dot Color.
( 1 ) B (blue). Indicates that percentage of relative humidity is below number on dot. Example: If 30% dot is blue, relative humidity is below 30%.
( 2) L (lavender or white). Indicates that percentage of relative humidity is equal to number on dot. Example: If 30% dot is lavender or white, relative humidity is 30%.
( 3) P (pink). Indicates that percentage of relative humidity is above number on dot. Example: If 30% dot is pink, relative humidity is above 30%.
c. Percentage of Relative Humidity. The relative humidity readings are accurate only if the container has been sealed for the previous 24-hour period.
C4 2-7
N Co
0 ~
\ T
able
2-3
. R
elat
ive
Hu
mid
ity I
ndic
atio
ns
Ind
ica
tor
do
t co
lor
Pe
rce
nta
ge
of
rela
tive
2
0
30
4
0
50
h
um
idit
y D
esi
cca
nt
con
tro
l M
aint
enan
ce r
equi
red
1 I
B
B
B
B
Un
de
r 2
0
Ver
y go
od
Insp
ect
eve
ry 2
4 h
ou
rs.
L B
B
B
2
0
Goo
d In
spec
t ev
ery
24
hou
rs.
p L
B
B
30
P
oor
Cha
nge
desi
ccan
t.
p p
B
B
35
B
ad
Cha
nge
desi
ccan
t.
p p
L B
4
0
Bad
C
hang
e de
sicc
ant.
p
p p
L 5
0
Bad
C
hang
e de
sicc
ant.
p
p p
p O
ver
50
B
ad
Cha
nge
desi
ccan
t.
1 W
hen
mis
sile
sec
tion
is in
co
nta
ine
r, r
efe
r to
TM
9-1
41
0-3
75
-12
fo
r m
issi
le s
ectio
n an
d m
issi
le s
ectio
n h
um
idity
I
ind
ica
tors
mai
nten
ance
.
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( (
{ (
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KG
).
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ure
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. F
irst
sta
ge s
hip
pin
g a
nd
sto
rage
con
tain
er.
• 36
. 9
(0.9
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IN
. (1
. 00
M)
X 3
. 62
IN. (
0. 0
9 M
) (T
YP
, BO
TH
SID
ES
) N
OT
E:
EM
P.T
Y W
EIG
HT
: Figu
re 2
-3.
Seco
nd s
tage
shi
ppin
g an
d st
orag
e co
ntai
ner.
( {
( (,
'
FS
NB
-16
BI
{,
\ /
n ..., N
... ...
( (
MA
X T
IED
OW
N L
OA
DS
IN
PO
UN
DS
(KIL
OG
RA
MS
) C
/G L
OC
AT
ION
IN
IN
CH
ES
(ME
TE
RS
P
OIN
T
FW
D
A
-B
1
9,5
00
(8
,84
5.2
)
TIE
OO
WN
PO
INT
S
(TY
P,B
OT
H S
IDE
S)
TO
W P
OIN
T
(TY
P,
BO
TH
SlD
ES
)
BE
AR
ING
SU
RF
AC
E
22. 5
IN
. (0
. 57
M)
X 3
. 62
IN.
(0. 0
09 M
) (T
YP
,4 P
LA
CE
S)
NO
TE
: E
MP
TY
WE
IGH
T:
AF
T
OU
TB
D
DO
WN
19
,50
0
10
,30
0
8,9
50
EM
PT
Y
TA
C G
&C
T
NR
IN
ER
T
DIM
. G
&C
G
&C
(8,84~
.2) (4
,67
2.0
8)
(4,0
59
.72
) •
.... •
.... •
.... •
....
-1
0,3
00
8
,95
0
(4, 6
72. 0
8)
(4,
059.
72
)
LIF
T
c 2
9.8
2
9.5
3
0.9
3
1.7
30
.9
31.7
31
.2
30
.7
0.7
6)
(0.7
5)
0.7
8)
(0.8
1) k
0.7
8)
(0.8
1) (
0.7
9 0
.78
)
0 4
3.4
4
5.3
4
2,5
4
3.9
4
2.5
4
3.7
4
5.8
4
7.2
(1
.10)
(I
.IS
) (1
.08
) (I
. 12
) (1
.08)
(l
.ll)
(1.
16)
(l.2
0)
e C
ON
TA
INE
R W
ITH
ST
EE
L C
OV
ER
S A
ND
RIN
GS
A
CO
NT
AIN
ER
WIT
H A
LU
MIN
UM
CO
VE
RS
AN
D R
ING
S
NO
LIF
T,
NO
TIE
OO
WN
TO
W P
OIN
T
(TY
P,
BO
TH
SID
ES
)
4.0
IN
. (0
.10
M)
---t
..+---
1--
-36
. 0
IN.
89.
3 !N
. I
I 6
5.0
IN,
(2. 2
7 M
)----,
~(I. 6
5 M
)
(0.9
1 M
)
CO
NT
AIN
ER
WIT
H S
TE
EL
CO
VE
RS
AN
D R
ING
S 1
,96
2 L
B (
89
0 K
G).
C
ON
TA
INE
R W
ITH
AL
UM
INU
M C
OV
ER
S A
ND
RIN
GS
1,8
50
LB
(8
39
KG
).
FS
NB
-IB
BI
Fig
ure
2-4
. G
uid
ance
se
ctio
n s
hip
pin
g a
nd
sto
rag
e co
nta
iner
.
~ ... N
.._
__
_ 8
3. 0
IN
•. __
_ __
(2
.11
M)
FO
RK
LIF
T
(TY
P,
EA
CH
SID
E)
ts;A;/~_l
--~--~--.
. '
~--------':....__l67.90IN.
_
~4,26M/
NO
TE
:
TO
W P
OIN
TS
(
2 E
AC
H E
ND
)
EM
PT
Y W
EIG
HT
: 2
, 316
LB
(1,
050
KG
).
{ {.
Fig
ure
2-5
. W
arhe
ad s
ectio
n sh
ippi
ng a
nd
stor
age
cont
aine
r.
{ {
{'
1. 5
0 IN
. (0
. 03
M)
GR
DC
L
AN
D S
KID
H
EIG
HT
FS
NB
-8
{1
\ /
r
- I._/
BLANKETS
2-4. Use of Blankets.
a. General. All missile sections can be stored in containers at temperatures as low as -31.7°C (-25°F) without use of heating blankets.
b. First and Second Stage Blankets. First and second stages in containers can be exposed to temperatures as low as -53.8°C (-65°F), with wind velocities up to 40 mph (64 kmph), for up to 1 week after removal of power for heating or after a temperature drop, providing the sections have previously been conditioned to -6.7°C (20°F). Hydraulic actuator blankets are used during the confidence and standard countdown when the ambient tern- I perature is -6.7°C (20°F) or below and 30 minutes prior to starting the power station when the ambient temperature is -31.7°C (-25°F) or below. Refer to TM 9-1410-375-12 for procedures for installing and removing first stage and second stage blankets.
c. Guidance Section. If a missile is to be fired in a minimum time period, the guidance section must be preconditioned. Refer to TM 9-1410-375-12 for procedures for preconditioning the guidance section.
d. Warhead Section. The warhead section conditioning kit must be installed when the ambient temperature is -31.7°C (-25°F) or lower. If the missile is to be fired in a minimum time period, the warhead section must be preconditioned to operating temperature. Refer to TM 9-1425-381-10 for procedures for preconditioning the warhead I section, and installing and removing the warhead section blanket.
C4 2·13
r
•'t . ~ \ ...
0\,_· _''" ~\ "'
2-14
~ .... U
'I
( {
( 1 -
Initi
ato
r ac
cess
fla
p 2
-H
oist
poi
nt a
cces
s fla
p (2
) 3
-La
nyar
d 4
-M
ain
blan
ket
sect
ion
{1
5 -
Hyd
rau
lic a
ctua
tion
pack
age
acce
ss f
lap
(2)
6 -
Pow
er c
onne
ctor
7
-H
oist
poi
nt a
cces
s fla
p (2
) 8
-T
ail
plug
acc
ess
flap
9 -
End
cov
er (
2)
10 -
Zip
pe
r 11
-
Clo
sing
str
ip
12
-La
nyar
d
Figu
re 2
-6.
Firs
t st
age
blan
ket
-Le
gend
.
( (
~
~
2-16
~ ... .....
( {
( {
1 -
Lany
ard
2 -
Sm
all
blan
ket
clos
ing
stri
p
3 -
Top
band
4
-In
terc
onne
ctin
g po
wer
cab
le
5 -
Hoi
st p
oint
acc
ess
flap
(2)
6 -
Initi
ato
r ac
cess
fla
p (2
) 7
-C
onne
ctin
g st
rap
8 -
Fro
nt b
lank
et s
ectio
n 9
-B
otto
m b
and
10
-La
nyar
d 11
-R
ear
blan
ket
sect
ion
{
12
-H
ydra
ulic
act
uatio
n pa
ckag
e ac
cess
fla
p (2
) 13
-P
ower
con
nect
or
14
-H
oist
poi
nt a
cces
s fla
p (2
) 1
5 -
Ove
rlap
flap
16 -
End
cov
er (
2)
17 -
Zip
pe
r 1
8 -
Clo
sing
str
ip
19
-C
onne
ctin
g st
rap
Figu
re 2
-7.
Seco
nd s
tage
bla
nket
-Le
gend
.
( ~
~
r
2-18
6 4
5
1 - Main blanket 2 - Cable mast hood 3 - Power connector 4 - Front end cover 5 - Rear end cover 6 Umbil ical door access flap 7 - Porro prism access flap
Figure 2-8. Guidance section blanket.
2
FSNB-25
I\) ... IO
HE
AT
ING
BL
AN
KE
T
RE
AR
FL
AP
EL
EC
TR
ICA
L
CO
NN
EC
TO
R (
2)
PIL
E T
AP
E
I S
TR
AP
(3
)
(.
ST
RA
P (
2)
LE
NG
TH
36
FT
HO
OK
TA
PE
Fig
ure
2-9
. W
arh
ead
sec
tion
bla
nke
t.
(_
(
EN
D C
OV
ER
FS
NB
-29
HOISTING BEAMS
2-5. Ancillary Equipment Tiedown Kit.
The tiedown ki t consists of webbing straps and retaining and mounting brackets that secure the support tubes and disassem bled hoisting beams to wrecker M543. Store the fo llowing as shown in figure 2- 11: frames ( forward and rear ) and spreader and channel beams of the fir st and second stage hoisting beams; support tubes; and sections (forward and r ea r ) and tube assembly of the gu idance section hoistin g beam.
2-20
51.42 IN. I~ -47.18 IN. (1.31 M)"'t ~ (1.20 M)
B. FOR FIRST OR SECOND ST AGE
NOTES: 1. GUIDANCE SECTION HOISTING BEAM
WEIGHT: 51 LB (23 KG). 2. FIRST OR SECOND STAGE HOISTING
BEAM WEIGHT:246 LB (111 KG).
Figure 2-10. Hoisting beams.
FSNB-4
2-21
FSNB-26
1 - Strap assembly 2 - Support tube (4) and spreader beam assembly (2) 3 ...: Strap assembly 4 - Strap assembly 5 - Retaining bracket 6 - Channel beam (right and left) (4) 7 - Retaining bracket 8 - Frame (forward and rear), section (forward and
rear), and tube assembly 9 - Strap assembly
1 O - Storage bracket 11 - Strap assembly 12 - Strap assembly 13 - Strap assembly 14 - Frame (forward and rear) 15 - Strap assembly (3) 16 - Mounting bracket (2)
Figure 2-11. Hoisting beam storage on wrecker M543.
2-22
r CHAPTER 3
ERECTOR-LAUNCHER
(CONTENTS)
Item
EL electrical circuit test set .............. . EL electrical circuit test set indicator
functions ..•.•..•.•.•.•.•.••.••......•••.••.••. 'W EL (less missile) physical data •.•...••.•
EL (with missile and XM757)
""""
transportation data •.•.•..•.........•.••.. Functional data •..•...•.•.•.•...•.•••••....••.. Physical data .•...•.•..•..•.•.•....••.•.•.•.•••. Warhead section handling device ..•..•.
Reference
Par. 3.3
Table 3-1 Fig. 3·1
Fig. 3-2 Par. 3-2 Par. 3-1 Fig. 3-3
Page
3-8
3-8 3-5 3-6· 3-3 3-3 3-7
3-1
r
r CHAPTER 3
ERECTOR-LAUNCHER
~ 3 -1 • Physical Data • a. Weight.
EL with cable mast ........................... 18,727 lb (8,495 kg) Cable mast .............................................. 308 lb ( 140 kg) EL .................................................. 18,497 lb {8,390 kg) I Azimuth ringassembly .......................... 1,433 lb (650 kg)· Front jack ............................................... 290 lb ( 132 kg) Rear jack ................................................ 312 lb ( 142 kg) Hydraulic oil tank ..................................... 95.6 lb ( 43 kg)
b. Wheels. Size ........................................................ 19.5 by 13.0 in.
c. Pneumatic Tires. Size ............... 16.5 by 19.5 in. 10 ply (plus 1 breaker ply) Rating .......................................................... 16 ply rating Operating pressure (nominal) ........................... 45 psig air
d. Hydraulic Reservoir Capacity. I Full (upper line on sight gage) ........... 33 gal ( 124.9 liters) (Use hydraulic oil MIL-H-81019 (FSN 9150-935-7148) or MIL-H-5606 (FSN 9150-265-9408).)
e. Fire Extinguishers. Type ....................................................... Vaporizing liquid Extinguishing agent ................. Monobromotrifl uorom ethane Stabilizing agent .................................................. Nitrogen
f. Davit Assembly. Lifting capacity ..................................... 1,300 lb ( 590 kg)
'-" 3-2. Functional Data.
a. EL Input Requirements. Electrical. ................... 120/208v, 3-phase, 400-Hz, 45-kw
generator. (Use 10-kw generator for limited use) Pneumatic:
Cable mast assembly and clamp release mechanism ............................... 3,000 psig air
Hydrau1ic accumulator (precharge) ........... 850 to 1,000 psig nitrogen (925 to
1,000 psig when operating in temperature below -31.7°C (-25°F))
b. EL and Tractor XM757 Turn Radius. Left turn .................................................... 42.5 ft ( 13 m) Right turn .................................................. 42.5 ft { 13 m)
C3 3.3
r \ c. Travel and Emplacement Limits.
Maximum tractor XM757 and EL cruising speed (improved roadway) ................ 50 mph (81 kmph)
Maximum ground slope for EL emplacement. .................. 6° Maximum wind velocity (with missile
erected) ................... 40 mph (64 kmph) steady; 60 mph l. 1
(97 kmph) gusts.._., I Maximum fording depth ............................ 40 in. ( 102 cm)
d. Change of Azimuth Method and Limits. Method ............................................ Manual (crank) drive Limits ............................. 1,582 mils to either side of 0 mil
3.4 C3
n ._.,
't'
UI
( (
PO
INT
S (
TY
P B
OT
H S
IDE
S )
a b
,h
c,d
e,
f g
T 11
7.tIN
. (2
.97
M)
RE
DU
CIB
LE
T
O 1
08
.45
IN
. (2
. 75
M)
j_
NO
TE
:
( {
TIE
DO
WN
LIM
IT L
OA
DS
IN P
OU
ND
S U
CIL
OG
RA
MS
>
:FW
D
AF
T
INB
D
OU
TB
D
15, 0
00 (
6, 8
04)
15. 0
00 (6
, 804
) 15
, 000
(6.
804
) 15
. 000
(6,
804
) 36
. 00
0(16
, 330
) 36
, 000
(16.
330
) 9
, 411
0 (4
, Z
87
) 9
,45
0 (
4,4'
1111
22. 5
00(1
0, 2
06)
22. 5
00(1
0, 2
06)
22. 5
00(1
0. 2
06)
22. 5
00(1
0, 2
06)
45.
000(
20, 4
1.r;
115.
000(
20, 4
12)
30. 0
00(1
3, 6
08)
30
. 000
(13,
608
) 4
5, 0
00(2
0, 4
12
45
, 000
(20,
412
) 15
. 000
(6, 8
04)
15, 0
00 (
6, 8
04)
WE
IGH
T:
18
,72
7 L
B (
8,4
95
KG
). Fig
ure
3-1
. EL
(le
ss m
issi
le)
phys
ical
dat
a.
( (
"' U
P
DO
WN
30
. 000
(13,
608
3
0. 0
00(1
3, 6
08)
~6.
000(
16,3
30)
6. 0
00
(16
,33
0)
45,
000(
20, 4
12)
5. 0
00(2
0. 4
12)
30. 0
00(1
3, 6
08)
0, 0
00(1
3. 6
08)
45
,00
0(2
0,4
12
) 5
,00
0(2
0, 4
12)
FS
NB
-22
BI
_)
w
0. fl
a b,h
c, e,r
g i,j,
k,1
m
,n
NO
TE
S:
AZ
IMU
TH
MA
NU
AL
D
RIV
E (
RE
MO
VA
BL
E)
1. T
UR
NIN
G R
AD
IUS
: 4
2.5
FT
(1
2.9
5 M
).
2.
AX
LE
LO
AD
S:
A &
B
-10
,33
6 L
B (
4,6
88
KG
) E
AC
H.
C &
D
46
,39
7 L
B (
2,8
90
KG
) E
AC
H.
3. W
EIG
HT
: 4
6,5
46
LB
(2
1,1
13
KG
).
450.
75 I
N.(
11.
45 M
) •I
I E
& F
-6,3
06
LB
(2
,86
0 K
G)
EA
CH
.
11
9-----------5
70
.0
IN
. (1
4.4
8 M
) •
FS
NB
-2IB
I
( ('
(
Figu
re 3
-2.
EL (
with
mis
sile
and
XM
75
7)
tran
spo
rtat
ion
dat
a.
{ (
(
'\
)
(") w
w
.:...
( {
(
HO
LE
A
(WS
+S
LIN
G)
AN
D S
HA
CK
LE
HO
LE
D
(WS
+ S
LIN
G +
CR
AD
LE
) H
OL
E B
(S
LIN
G O
NL
Y O
R
SL
ING
+ C
RA
DL
E)
HO
LE
C
(DO
NO
T U
SE
)
{ (
{
~ ... L
-==
=="~-!
JM).
16.4
IN
. (0
.42
M)
-===
====
=!==
====
====
====
==-_
.l___
t
57
.8
IN,
:I (1
.47
M)
----------
148.
5 IN
. j.
-4
0.5
IN
. N
OT
ES
: (3
. 77
Ml
(1,0
3 M
) l.
EM
PT
Y W
EIG
HT
: S
LIN
G -
22
8 L
B (
103.
4 K
G)
CR
AD
LE
-2
67
LB
(12
1. l
KG
) S
LIN
G +
CR
AD
LE
-4
95
LB
(2
24
.S K
G)
2.
US
E H
AN
DL
ES
ON
FO
RW
AR
D C
OV
ER
ON
LY
FO
R G
UID
ING
PR
OT
EC
TO
R-S
LIN
G.
3.
AT
TA
CH
BE
LT
TO
SL
ING
BE
FO
RE
MA
TIN
G W
S T
O S
LIN
G.
FS
NB
-20
CI
Figu
re 3
-3.
War
head
sec
tion
hand
ling
devi
ce .
" ~
3-3. EL Electrical Circuit Test Set.
a. The EL electrical circuit test set {tester), with de-1 tachable cables 98W 1, 98W2, and 98W3 is used to locate
and isolate electrical malfunctions in the EL or to verify the operation of the EL.
b. Table 3-1 lists the functions of the indicators on the...._., tester. An indicator lights when an electrical command or voltage reference of the EL under test is being verified.
Table 3-1. EL Electrical Circuit Test Set ~ Indicator Functions
Indicator Function
AlJ2
5 Dangerous tilt (PTS) 6 Warhead mated
10 EL charging 11 EL charged 15 EL leveling 16 ST-120 platform heater 18 EL level 19 Erect No. 1 supv 22 Auto seq selected 23 MSL vertical 24 Boom clear 27 Spare 28 Spare 30 Spare 31 LlO bus ac 32 Spare 33 Spare 35 Spare 3 7 Horn voltage 40 MSL thermostat
AlJ4 "-r" 1 Shut off valve supv 2 Front manual sw retract 3 Curb manual sw retract 4 Road manual sw retract 5 28vdc supply supv 6 Uplocks 7 Front manual sw extend
3·8 C2
r ~ Table 3-1 • EL Electrical Circuit Test Set Indicator Functions-Continued
.... Indicator Function
A1J4-Continued
8 Curb manual sw extend 9 Road manual sw extend
10 Pump enable 11 Final pressure S4 12 Boom down supervision 13 Spare 14 Pump motor 15 ST-120 temp ok 16 Rear low 17 Front low 18 Curb low 19 Road low 20 Front jack temp supv 21 Final pressure 22 Dangerous tilt slave 23 Boom down 24 Auto level 25 Launch pad up supv 26 Solenoid down supv 27 Front jack retract 28 Solenoid up supv 29 Front jack extend 30 Curb jack extend 31 Curb jack retract 32 Road jack extend 33 Road jack retract 34 Curb jack temp supv 35 Dangerous tilt (output) 36 Boom clear 37 Standby
-' 38 Spare thru 41 42 Level condition 43 Road jack temp supv 44 Spare 45 + 28v ( + 0400) bus supv
3.9
r Table 3-1. EL Electrical Circuit Test Set
Indicator Functions-Continued
Indicator
46 thru 50 5 1 52 53 54 55 57 58 59 60
3-10
Function
AlJ4-Continued
Spare
Pump voltage-ac Curb jack motor - ac Front jack motor-ac Road jack motor-ac LlO to de supply-ac L20 to de supply-ac L30 to de supply-ac Spare Spare
r CHAPTER 4
PROGRAMMER-TEST STATION
(CONTENTS)
Item
Adapter diagnostic test modes ......... . Adapter malfunction display codes ... . CMTS malfunction display codes ...•... Conditions causing short hold that
operator can control. ..........•..•....... Conditions causing short hold that
operator cannot control ................ . Jumper cap information •.................. Manual data entry •....•........•..•.........• Power distribution buses ......•........... Program tapes and containers ......... . PTS interior, left side .........•............. PTS interior, right side .................... . PTS shelter physical data ................ . PTS·PS transportation data ............. .. Quick count sequence ......................... . Signals on connector pins of PTS
cable entry panels ....................... . Standard count sequences ................... .
Reference
Par. 4.5 Table 4.4 Table 4.5
Table 4-2
Table 4-3 Table 4·8
Par. 4-1 Table 4.7 Table 4·1
Fig. 4.3 Fig. 4-4 Fig. 4·1 Fig. 4-2 Par. 4-3
Table 4-6 Par. 4-2
-, Page
4-32 4-12.51 4·14.1
4-9 ~ 4-12 4.33
4.3 4-31
4-9 1 4.37 4-38 4-35· 4-36
4·7 I
44~~,
C4 4·1 /(4·2 blank)
r
CHAPTER 4 PROGRAMMER-TEST STATION
I._,) 4-1 • Manual Data Entry.
-.,,,,,,;
a. 01 SPL (Spheroid of Launch). Represents firing PO· sition location in one of six spheroids of the earth. This value is used to compensate for curvature of earth in the specific spheroid.
0 International 1 Clarke 1866 2 Everest
3 Clarke 1880 4 Bessel 5 Clarke 1858
b. 02 AOL (Altitude of Launch). Represents altitude in meters of firing position above ( +) or below ( - ) sea level.
c. 03 ZOL (Zone of Launch). Firing position in one of 60 zones of earth in the UTM system. Zero is used for this entry when Geographic system is used.
Note
In determining EOL (d below) and the EOT (k below), it should be noted that the westmost position of zone is 150,000 meters, midzone is 500,000 meters, and eastmost position of zone is 850,000 meters. Therefore, EOL and EOT must be somewhere between 150,000 and 850,000 meters.
d. 04 EOL (Easting of Launch). UTM system. Firing position in meters as measured on an east-west line in zone which the missile is located.
e. 04 LAL (latitude of Launch). Geographic system. Firing position in Northern ( +) or Southern ( - ) Hemi· sphere. Value is in degrees, minutes, seconds and tenths of seconds. Never greater than 90 degrees.
f. 05 NOL (Northing of Launch). UTM system. Number of meters north or south of equator. Northern Hemisphere 0 to · 10,000,000 meters from equator to north pole. Southern Hemisphere -10,000,000 to -0 meters from equator to south pole.
g. 05 LOL (Longitude of Launch). Geographic system. Represents firing position in Eastern ( - ) or Western ( +) Hemisphere. Value is in degrees, minutes, seconds, and tenths of seconds.
4.3
h. 06 SPT (Spheroid of Target). Same as SPL, except that it represents location of target.
i. 07 AOT (Altitude of Target). Same as AOL, except that it represents altitude of target.
I j. 08 ZOT (Zone of Target). Same as ZOL, except that it rep· resents zone of target.
k. 09 EQT (Easting of Target). Same as EOL, except that it represents location of target.
I. 09 LAT (Latitude of Target) . Same as LAL, except that it represents location of target.
m. 10 NOT (Northing of Target) . Same as NOL, except that it represents location of target.
n. 10 LOT (Longitude of Target). Same as LOL, except that it represents location of target.
o. 11 HOB (Height of Burst) . First digit represents type of burst.
Air burst 2 Air I surface burst 3 Surface burst
The remainder of th is entry specifies height in meters above target at which warhead detonation will occur.
p. 12 TAT (Target Atmosphere). A numeric va lue of one or two digits representing atmosphere of target. Th e TAT selected mu st correspond to one of three TATS selec ted at start of count.
I 4-2. Standard Count Sequences.
a. Program Entry.
( 1) System cabl es connected.
(2) Firing position equipment readied for countdown.
(3) Block I of countdown tape loaded.
(4) Checksum of memory.
(5) TATS se lected.
( 6) Block 11 of countdown tape loaded and tape is rewound .
b. Computer Self· Test.
4 -4
( 1) Check of te leprinter.
(2) Checksum of memory.
(3) Mode selection (confidence, standard , quick).
C4
r ( 4) Computer self-test.
c. Manual Data Entry.
( 1) Enter set number.
(2) Enter MDE's.
~ (3) Compute firing equations.
d. Adapter Self·Test.
( 1) Perform limited self-test of adapter.
(2) Display FAM.
"..I e. Initial Monitor.
( 1) Cable checks.
(2) Missile identification check.
f. Monitor Scan. Start monitor scan. (Repeated at I-second intervals throughout program.)
g. Missile Power. Power applied to missile.
h. Range Select.
( 1) Range selection applied to missile.
(2) Voltage check of missile buses.
(3) Inverter voltage monitor.
i. Set T and Offset Integrate.
( 1) Set T test.
(2) Offset velocity integrate test.
j. Warhead Preset and Verification. Warhead preset and ver· ified for flight.
k. Guidance Computer Test.
"(1) Preset integration test.
(2) Inverter voltage and frequency monitors.
I. Platform Enable. Uncage ST-120.
m. Set ERB·Fast Erect. Ball and disc integrate.
n. Set ERB-Slow Erect.
o. SA+CR Arm Test.
( 1) Platform level test.
(2) Pitch program test.
p. Controls Test.
\._,} (1) Gimbal temperature check.
(2) First and second stage pumps on.
C4 4.5
4-6
(3) Control seal-in test.
(4) Test of control computer and actuators.
q. Simulated Flight. Simulated flight test.
r. Azimuth Lay Coarse. ST ·120 torqued to firing azimuth.
s. Guidance Preset and Verification.
( 1) Preset SRV and SRO.
(2) Verify SRV and SRO.
t. Azimuth Lay Fine.
u. Acceleration Monitor.
(1) · SR accelerometer.
(2) CR accelerometer.
(3) SA accelerometer.
v. Burst Select.
( 1) Air, surface, or air/surface select.
(2) Lay complete.
w. Preremote Monitor.
(1) EL charged and level.
(2) Select auto sequence.
(3) Azimuth ring clamp removed monitor.
(4) Arm launch control panel.
(5) Select remote.
x. Remote.
(1) Clear area warning.
(2) Inverter frequency and voltage monitor.
y. Launch sequence initiation.
( 1) Fire switches pressed.
(2) 3,000 psi monitor.
z. Erection.
( 1) First and second stage pumps on.
(2) Missile vertical supervision.
(3) Battery activate.
aa. Fire Sequence.
( 1) EBW monitor.
(2) Control seal·in monitors.
(3) Vane lock.
C4
r
- \_,I
(4) Battery voltage check.
(5) Fire explosive switches.
(6) Mast eject.
(7) First stage ignition.
(8) Lift-off.
4-3. Quick Count Sequence.
a. Program Entry. Terminate alert readiness.
b. Computer Self-Test (not performed in quick count).
( 1) Check of teleprinter.
(2) Checksum of memory.
(3) Mode selection.
~ c. Manual Data Entry. Enter set number.
>.._)
~
d. Adapter Self· Test. Perform limited self-test of adapter (CMT, CRG, MMO, PON).
e. Initial Monitor.
( 1) Cable checks.
(2) Missile identification check.
f. Monitor Scan. Start monitor scan. (Repeated at l·second intervals throughout program.)
g. Missile Power. Power applied to missile.
h. Range Select.
( 1) Range selection applied to missile.
(2) Display FAM.
(3) Inverter voltage monitor.
(4) Verify SRV preset.
i. Platform Enable. Un cage ST -120.
j. Set ERB-Fast Erect
( 1) ERB prep.
(2) Gimbal temperature check.
k. Burst Select.
( 1) Burst selection verified.
(2) Set ERB.
I. Auto Slew.
C4 4.7
I
m. Azimuth Lay Coarse. ST·l20 torqued to firi ng azimuth.
n. Acceleration Monitor.
( 1) SR accelerometer.
(2) Lay complete.
o. Preremote Monitor.
( 1) EL charged and level.
(2) Azimuth ring switch supervision.
( 3) Arm launch control panel.
( 4) Select remote.
p. Remote.
( 1) Clear area warning.
(2) Inverter voltage and frequency monitor.
q. Launch Sequence Initiation.
( 1) Fire switches pressed.
(2) 3000 psi monitor.
r. Erection.
s.
4-8
(1) Fi rst and second stage pumps on.
(2) Missile vert ical supervi sion.
( 3) Battery activate.
Fire Sequence.
(1) EBW monitor.
(2) Control seal·in monitors.
(3) Vane lock.
(4) Battery voltage check.
(5) Fire explosive switches.
(6) Mast eject.
(7) First stage ignit ion.
(8) Lift -off .
C4
r Table 4-2. Conditions Causing Short Hold
That Operator Can Control-Continued
Phase/IRI display
Missile Power TURN MSL ON
L-J Set T ...,. None
C3
Condition
Missile power not turned on.
4-8.1/(4-8.2 blank)
.-
·~\
'I
~
r
",../
\._/
·~
Table 4-1. Program Tapes and Containers
Container/tape Item reference No.
Adapter diagnostic 11051854/11051804
CMTS diagnostic 11051851/11051801
Computer diagnostic 11051860/11052764
Individual missile sections 11051852/11051802 in-container
Missile less warhead section 11051853/11051803 in-container
Tactical program tape 11051862/11051812
Tactical training program tape 11051855/11051805
UUT tapes for CMTS 11051865/11051815 11053110/11053060
Table 4-2. Conditions Causing Short Hold That Operator Can Control
Phase/IRI display Condition
I
I ~ Ground Power and TAT
Selection None
MOE, Self-Test, and Initial Monitor
PRINT INOP
KEY SW TO LOCAL
MTEWH 1
Printer not turned on or not op· erating. (Refer to paragraph 3-27.)
LOCAL/REMOTE key switch turned to REMOTE. Turn switch to LOCAL and press COUNTING switch.
EL control panel warhead switch not set to WHO MATED.
See footnote at end of table.
C4 4-9
r '\ I Table 4-2. Conditions Causing Short Hold
That Operator Can Control-Continued
Phase/IRI display Condition
EL PREP' EL control panel MODE selector -switch not turned to LOCAL and/or automatic leveling not initiated.
ACT CLD 1 Oil temperature of hydraulic ac-tuation assemblies below '-" -31.7°C (-25°F).
Notify supervisor of display. When directed by supervisor, press COUNTING switch.
SAFE LCP SAFE/ ARM switch not turned to SAFE.
~ IMP EL MODE EL control panel MODE selector switch turned to AUTOMATIC SEQUENCE.
Request supervisor to direct EL operator to turn MODE selector switch to LOCAL.
MTE CLMP1 Azimuth ring clamp sections not installed.
Missile Power TURN MSL ON Missile power not turned on.
SetT None
Warhead Preset and Verification
None
Guidance Computer Test None
Controls Test None
Simulated Flight None
Guidance Preset and Verification
LAY TMR MONITOR switch not pressed.
See footnote at end of table. '91
4-10 C4
r
-~
~
'.,I
1...,1
'.I
Table 4-2. Conditions Causing· Short Hold That Operator Can Cont'•~Continued
Phase/IRI display Condition
Accelerometer Monitor AIR MDE specified air burst. SUR MDE specified surface burst. A/S MDE specified air burst with sur·
face backup.
Horizontal Laying Verification
IMP EL MODE EL control panel MODE selector switch turned to AUTOMATIC SEQUENCE.
Request supervisor to direct EL operator to turn MODE selector switch to LOCAL.
LAY COMPL COMPLETE (or LAY COMPLETE) switch not pressed.
VL 2 Missile erection for vertical lay. SAFE LCP 2 SAFE/ARM switch not turned to
SAFE. AUTO SEQ 3 EL control panel MODE selector
switch not turned to AUTO· MATIC SEQUENCE.
ARM LCP3 SAFE/ARM switch not turned to ARM.
REM CLMP 3 Azimuth ring clamp sections in· stalled.
LAY RECYCL Theodolite operator requires more time to lay the ST-120.
LAYTMR MONITOR switch not pressed. SEL RMTE3 Prepare for vertical lay remote
phase or for standard (or quick) erect and fire.
MTE CLMP2 Prepare for vertical lay erection. CNF CD 4 End of confidence count.
Remote RMTE RECYCL 3 Selected recycle to laying phase.
1 Hold not applicable for a quick erect and fire sequence. 2 Hold applicable only for vertical laying. 3 Hold not applicable for a confidence count. 4 Hold applicable only for a confidence count.
C4 4.11
i '\ Table 4-3. Conditions Causing Short Hold That
Operator Cannot Control
Phase/IRI display Condition Remarks
Ground Power and Note ~
TAT Selection The time intervals None specified below
assume usual envi-ronmental condi-tions and no oper-
~ ator errors. If speci-tied hold time inter-vals are exceeded, notify supervisor before proceeding with maintenance.
'-1' MOE, Self-Test, and
Initial Monitor
None
Missile Power
NO 1200 PSI High-pressure air 2 minutes pressure below 1,200 psig.
PLT CLO ST-120 base plate 1 minute temperature be-low 0°C (32°F).
GD CMP CLO Guidance com- 1 minute puter tern-perature below 6°C (42.8°F).
Set T
None
Warhead Preset and Verification
None
---......
4-12 C4
r " Table 4-3. Conditions Causing Short Hold That Operator Cannot Control-Continued I
Phase/IRI display Condition Remarks - ....,_J
Guidance Computer Test
INVR FRQ 1 Missile inverter After approximately frequency not 4 minutes se-stabilized.· quence will mal·
function with CD MALF TEST 187 G+C INVR dis· played on IRI.
PLT PREP ST-120 power on After 2 minutes, se-and stabilizing quence will auto· sequence. matically advance.
GMBL CLD2 Gimbal tern- 2 minutes perature below 32°C (89.6°F). Note
GMBL CLO may be displayed for as long as 10 minutes if the fire sequence was terminated for as long as 30 minutes and the guidance section was allowed to cool during this time.
GMBLHOF Gimbal tern· 5 minutes perature above 45°C (113°F) or gimbal air tern-perature above 10°c (158°F).
'..._) PLT LEV ST-120 leveling. 20 minutes
See footnote at end of table.
\.._)
C4 4-12.1
f '\
I Table 4·3. Conditions Causing Short Hold That Operator Cannot Control-Continued
Phase/IRI display Condition Remarks ~
Controls Test
GMBL CLD1 Gimbal tern- 2 minutes perature below 32°C (89.6°F). Note
GMBL CLD may be ~ displayed for as long as 10 minutes if the fire sequence was terminated for as long as 30 minutes and the guidance
"-" section was allowed to cool during this time.
GMBL HOP Gimbal tern- 5 minutes perature above 45°C (113°F) or gimbal air tern-perature above 70°C (158°F).
Simulated Flight
None
Guidance Preset and Verification
GMBL CLO Gimbal tern- 2 minutes ~
perature below 32°C (89.6°F).
GMBL HOT Gimbal tern- 5 minutes perature above 45°C ( 113°F) or ~ gimbal air tern-perature above 70°C ( 158°F).
See footnote at end of table. ~
4-12.2 C4
r ~ Table 4·3. Conditions Causing Short Hold That I
Operator Cannot Control-Continued ,
Phase/IRI display Condition Remarks -~
Accelerometer Mon-it or
SA CAM 1 Slant altitude pro- After approximately gram cam not at 4 minutes, se-
~ zero. quence will mal-function with CD MALF TEST 370 ADPT or CD MALF TEST 371 G+C GD CMP displayed on
~ IRI.
NO 2300 PSI High-pressure air pressure in guid-
2 minutes
ance section gyro air sphere below 2,300 psig.
Horizontal Laying Verification
NO 2300 PSI High-pressure air 2 minutes pressure in guid-ance section gyro air sphere below 2,300 psig.
BATTMP Missile batteries 10 minutes temperature too low.
EL CHG EL accumulator 1 minute for -31.7°C not fully charged. (-25°F) and
above; 10 minutes for below -31.7°C
EL LEV EL leveling. 1 minute
BRG AIR HTR ST-120 fro bear- 2 minutes ing air eaters have not cycled.
\,../ See footnote at end of table.
C4 4-12.3
Table 4·3. Conditions Causing Short Hold That Operator Cannot Control-Continued
Phase/IRI display Condition Remarks
GMBL HOT Gimbal tern- 5 minutes
Vertical Laying and Verification
GMBL CLO
GMBL HOT
Remote
None
Firing
None
perature above 45°C (l 13°F) or gimbal air tem-perature above 70°C (158°F).
Gimbal tern- 2 minutes perature below 32°C (89.6°F).
Gimbal tern- 5 minutes perature above 45°C (1 l3°F) or gimbal air tem-perature above 70°C (158°F).
1Hold not applicable for a quick erect and fire sequence. 2Hold applicable only for a quick erect and fire sequence.
4·12.4 C4
Table 4-4. Adapter Malfunction Display Codes
Area mnemonic code
ADPT MALF1
AFM ALG AZCB
BAT ACT INT1
Meaning
Adapter malfunction Acceleration and frequency monitor Alinement amplifier Azimuth laying control box Battery activate interrupt
See footnote at end of table.
C4 4-12.5/(4-12.6 blank)
I
r
r Table 4-4. Adapter Malfunction Display Codes-Continued
Area mnemonic code
CMD PAR1
CMP MALF1
CMP TMR 1
CMT "'RB1
'-'ERG
1..,1 OTA PAR1
0102 INT1
0103 INT1
FIRE 0 INT1
GNCJ
HEFU HEFU INT1
LCP
LPON
MALF TEST 000 MALF TEST 000
CKSUM MALF1
\_J\llALF TEST 000 .._.. CMP TMR1
MALF TEST 000 CROWBAR INT MALF1
MALF TEST 000 L--1 CROWBAR .._,. MALF1
MISC MMO MSL PWR OFF1
.,ON ~
PRINT INOP
Meaning
Command parity error Computer malfunction Computer timer Constant monitor Crowbar Control register a. Command module b. Column selection c. Monitor zero d. Emitter follower and row selection e. Relay matrix
Data parity error 0102 interrupt 0103 interrupt
Fire zero interrupt
Interlock test, test cable entry, mode 02
High energy firing unit High energy firing unit interrupt
Launch control panel
Limited power on
Power malfunction Checksum malfunction
Computer timer
Crowbar interrupt malfunction
Crowbar circuit ( 32A2A7A85) malfunction
Miscellaneous test Monitor module on Missile power off
Remaining adapter power on and miscellaneous tests
Printer inoperative
See footnote at end of table.
C3 4-13
r Table 4-4. Adapter Malfunction Display Codes-Continued
Area mnemonic code
PVC PPS PRS
RATIO MALF1
Rf BX
Meaning
Programmable voltage comparator Programmable power supply Presetting circuits
PVC ratio malfunction Remote firing box
Safety relay interrupt SFTY REL I NT1
TCTB Interlock test, tactical cable entry, mode 00
Interlock test, tactical and fire control'-" cable entry, mode 01
TCTJ
TMR INT1 Programmable timer interrupt TMER Programmable timer TRS1 Transient interrupt
WH CONT INT1 Warhead continuity interrupt
1J02 32A4A1J2, tactical cable entry 1J03 32A4AlJ3, tactical cable entry 1J04 32A4A1J4, tactical cable entry 1J05 32A4AlJ 5, tactical cable entry 1J06 32A4AlJ6, tactical cable entry 1J07 32A4A1J7, tactical cable entry !JOB 32A4A1J8, tactical cable entry 1J09 32A4A1J9, tactical cable entry lJ 10 32A4A1J 10, tactical cable entry
1 SGJ Interlock test, test cable entry, mode 03i._.,
2J01 32A4A2Jl, test cable entry 2J02 32A4A2J 2, test cable entry 2J03 32A4A2J3, test cable entry 2J04 32A4A2J4, test cable entry 2J05 32A4A2J5, test cable entry 2J06 32A4A2J6, test cable entry 2J07 32A4A2J7, test cable entry 2J08 32A4A2J8, test cable entry
2SGJ Interlock test, test cable entry, mode04
5J06 32A4A5J6, fire control cable entry~
1These area mnemonic codes are random displays that can be displayed at any time during the automatic adapter diagnostic test.
4-14 Cl
r Table 4- 5. CMTS Malfunction Display Codes
Area mnemonic code
ADPT MALF ADAPT PPS A91
BATT ACT INT
CK SUM ERROR
CMD PAR CMP MALF CMP TMR CRB CRG
CTAC CT PPS
OTA PAR 0102 INT 0103 INT
ENTRY ERROR
FIRE 0 INT
HEFU INT
J26 J27 J28 J29 J30
LIT
MALF TEST 000 MALF TEST 000
CROWBAR INT MALF
MALF TEST 000 CROWBAR MALF
C3
Meaning
Relay write malfunction Adapter programmable power supply Module test connector
Battery activate interrupt
Program not complete in memory
Command parity error Com put er ma If unction Computer timer malfunction Crowbar malfunction Control register a. Command module b. Column selection c. Monitor zero d. Emitter follower and row selection e. Relay matrix Card tester ac power CMTS programmable power supply
Data parity error Bus +0102 interrupt Bus +0103 interrupt
Keyboard entry error
Fire zero interrupt
High energy firing unit interrupt
Relay cards test connector Adapter cards test connector Alinement amplifier card testconnector Computer logic cards test connector Computer memory cards testconnector
Load simulation
Power ma If unction Crowbar interrupt
Crowbar circuit malfunction
4-14.1
Table 4-5. CMTS Malfunction Display Codes-Continued
Area mnemonic code
MDC MIST MMO MSL PWR OFF
PON
PPS
4-14.2
Meaning
Module circuits Miscellaneous test Monitor module on Missile power off
Remaining adapter power on and miscellaneous test
Programmable power supply
C3
r
~
~
Table 4-5. CMTS Malfunction Display Codes-Continued
Area mnemonic code
PPSA PUDE PUSE PVC
RATIO MALF
SFTY REL INT
TAPE PARITY TEST NOT FOUND TMR INT TPOA TRS TRMA
WH CONT INT
C2
Meaning
CMTS programmable power supply Pulse detector Pulse sequencer Programmable voltage comparator
Ratio measurement
Safety relay interrupt
Tape reader parity error
Programmable timer output interrupt Card tester power on Transient interrupt Ca rd tester relay matrix
Warhead continuity interrupt
4-15
' I
~
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pan
els
\ ... en
Sig
nal d
istr
ibu
tion
box
S
igna
l C
onne
ctor
pin
(s)
I (3
2A
8)
test
poi
nts
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
Air
sel
ect
com
man
d J6
-20
E
l3
Air
sel
ect
supe
rvis
ion
J6-1
8
Bl3
A
ir/s
urf
ace
sel
ect
com
man
d J6
-7
01
2
Air
/su
rfa
ce s
elec
t su
perv
isio
n J6
-29
M
13
A
ttitu
de s
igna
l exc
itatio
n o
ff c
omm
and
J5-2
3 A
ll
Aut
o se
quen
ce s
elec
ted
J 10-
13
l24
I
Azi
mut
h pi
ckof
f out
put
J8-4
3, 4
4 L2
0, M
20
Azi
mut
h po
sitio
ning
sig
nal
J2-2
8, 2
9 K
2, J
2 I
Azi
mut
h rin
g sw
itch
supe
rvis
ion
J9-5
3 E
24
Azi
mut
h ri
ng
sw
itch
supp
ly
J9-5
8
A31
B
atte
ry a
ctiv
ate
com
man
d JS
-6
BlO
B
atte
ry a
ctiv
ator
and
cas
e ve
ntin
g s
afe
supe
rvis
ion
JS-7
C
lO
Bat
tery
act
iva
tor
arm
com
man
d JS
-5
AlO
B
atte
ry h
eate
r su
pply
(L
lO)
JS-2
N
39
B
atte
ry h
ea
ter
supp
ly (
l20
) JS
-3
L39
Bat
tery
hea
ter
supp
ly (
l30
) JS
-4
M3
9
(')
Bat
tery
hea
ter
supp
ly (
ne
utr
al)
JS
-1
N2
8
.c:i.
Bat
tery
te
mp
era
ture
low
sup
ervi
sion
JS
-14
H
lO
{)
{1
(,
(
{ (
/
n ~ ... ....
( (
( (
( (
~
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Be
ari
ng
air
flow
red
uctio
n co
mm
and
Be
ari
ng
air
hea
ter
off
com
man
d (m
inu
s)
Be
ari
ng
air
hea
ter
on s
up
erv
isio
n
Be
ari
ng
air
12
00
PS
IG s
witc
h su
perv
isio
n B
ea
rin
g a
ir 1
20
0 P
SIG
sw
itch
supe
rvis
ion
supp
ly
Be
ari
ng
air
30
00
PS
IG s
witc
h su
perv
isio
n B
ea
rin
g a
ir 3
00
0 P
SIG
sw
itch
supe
rvis
ion
supp
ly
Cag
e-un
cage
mo
tor
(LlO
) C
age-
unca
ge m
oto
r (l
20
, l3
0)
Cag
e-un
cage
mo
tor
(ne
utr
al)
C
age-
unca
ge s
uper
visi
on s
uppl
y C
aged
sup
ervi
sion
C
on
tro
l co
mp
ute
r on
com
man
d C
on
tro
l se
al-in
off
com
man
d C
ontr
ol s
eal-i
n on
com
man
d C
on
tro
l se
al-in
on
supe
rvis
ion
CR
in
teg
rato
r st
op c
omm
and
Con
nect
or p
in(s
)
J9-1
9
J5-1
3
J5-2
4
JS-1
2
JS-1
3
JS-1
0
JS-1
1 JS
-58
JS
-60
JS
-59
JS
-20
JS
-21
J4-4
7
J9-6
J4
-32
J4
-33
J3
-49
Sig
nal d
istr
ibu
tion
box
(3
2A
8)
test
poi
nts
I
H3
4
01
3
81
1
01
9
F19
C
19
J13
H
19
L35
K
35
F19
G
19
H9
E22
M
S
A9
H7
~
~ ... 0
0
(")
.J:lo
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tinu
ed
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
CR
O h
old
com
man
d C
RO
mo
nit
or
and
sub
stitu
te c
omm
and
CR
V h
old
com
man
d C
RV
mo
nit
or
and
sub
stitu
te c
omm
and
CR
V m
on
ito
r ( S
l, S
2,
S3
) C
RV
off
set
com
man
d C
RV
ze
ro c
omm
and
Cu
toff
te
st s
uper
visi
on
Cu
toff
te
st s
uper
visi
on s
up
ply
+
01
0 +
28
v de
mon
itor
+0
2 +
25v
de
pow
er s
uppl
y -
02
-25
v de
pow
er s
uppl
y +
01
1 +
28
v de
pow
er s
uppl
y +
02
+2
5v
de p
ower
sup
ply
Em
erge
ncy
mis
sile
pow
er o
ff c
omm
and
(ne
ga
tive
) E
mer
genc
y m
issi
le p
ower
off
com
man
d (p
osi
tive
) E
xplo
sive
sw
itch
fire
com
man
d E
xplo
sive
sw
itch
fire
d s
uper
visi
on
Exp
losi
ve s
witc
h in
sta
llatio
n s
uper
visi
on
{)
{\
(
Con
nect
or p
in(s
)
J3-3
3
J7-3
4
J5-1
2
J7-3
5
J3-3
, 2,
1
J3-3
2
J3-3
1
J3-4
1
J3-4
2
J4·1
0
J7-3
9 J7
-38
J4-1
2, 1
3 J4
-6,
7 J9
-1
J9-2
J4
-18
J4
-36
J4
-34
( {
Sig
nal d
istr
ibu
tio
n b
ox
(32
A8
) te
st p
oint
s
F6
F17
G
lO
G17
F
4, 0
4,
E4
E6
06
8
7
C7 ES
L1
7 K
17
Nll
A13
M
21
A2
2
HS
09
8
9
(
\ I ~
n ~ .... '°
{ {
{ (,
(
(
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of P
TS C
able
Ent
ry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Fir
st s
tage
act
ua
tor
switc
h su
pp
ly
Fir
st s
tage
act
ua
tor
1 oi
l te
mp
era
ture
sw
itch
sup
erv
isio
n
Fir
st s
tage
act
ua
tor
1 o
pe
ratin
g p
ress
ure
su
pe
rvis
ion
F
irst
sta
ge a
ctu
ato
r 1
pre
cha
rge
pre
ssu
re a
nd o
il le
vel
sup
erv
isio
n
Fir
st s
tage
act
ua
tor
2 o
il te
mp
era
ture
sw
itch
sup
erv
isio
n
Fir
st s
tage
act
ua
tor
2 o
pe
ratin
g p
ress
ure
su
pe
rvis
ion
F
irst
sta
ge a
ctu
ato
r 2
pre
cha
rge
pre
ssu
re a
nd
oil
leve
l su
pe
rvis
ion
F
irst
sta
ge a
ctu
ato
r 3
oil
tem
pe
ratu
re s
witc
h su
pe
rvis
ion
F
irst
sta
ge a
ctu
ato
r 3
op
era
ting
pre
ssu
re s
up
erv
isio
n
Fir
st s
tage
act
ua
tor
3 p
rech
arg
e p
ress
ure
and
oil
leve
l su
pe
rvis
ion
F
irst
sta
ge i
gn
itio
n a
rm c
om
ma
nd
Con
nect
or p
in(s
)
J9
·20
J9
·21
J9-2
3
J9-2
2
J9-2
4
J9-2
6
J9-2
5
J9-2
7
J9-3
0
J9
·29
J4-2
3
Sig
nal
dis
trib
utio
n b
ox
(32
A8
) te
st p
oin
ts
J13
J3
4
J22
H
22
K3
4
L22
K2
2
M2
2
82
3
A23
LS
' I ~
( .,. I'
\)
0 n
Ta
ble
4-6
. S
igna
ls o
n C
on
ne
cto
r P
ins
of
PTS
Ca
ble
Ent
ry P
an
els
-Co
nti
nu
ed
Sig
na
l
Ta
ctic
al
Ca
ble
En
try
Pan
el (
A4
Al)
-Co
nti
nu
ed
Fir
st s
tag
e i
gn
itio
n co
mm
an
d s
up
erv
isio
n
Fir
st s
tage
ig
nit
ion
fir
e p
lus
Fir
st s
tage
ig
nit
ion
fir
e z
ero
F
irst
sta
ge
pu
mp
mo
tor
on c
om
ma
nd
F
irst
sta
ge s
ep
ara
tio
n c
om
ma
nd
su
pe
rvis
ion
F
irst
sta
ge v
an
e 1
po
sitio
n m
on
ito
r F
irst
sta
ge
va
ne
2 p
osi
tio
n m
on
ito
r F
irst
sta
ge
va
ne
3 p
osi
tio
n m
on
ito
r G
imb
al
hot
su
pe
rvis
ion
G
imb
al
no
t co
ld s
up
erv
isio
n
GS
E l
ift·
off
re
lay
retu
rn
Gu
ida
nce
air
su
pp
ly t
em
pe
ratu
re i
nd
ica
tio
n t
o
po
we
r st
atio
n
Gu
ida
nce
co
mp
ute
r co
ld s
up
erv
isio
n
Gu
ida
nce
pre
ssu
re m
on
ito
r sw
itch
sup
erv
isio
n
Gu
ida
nce
pro
gra
m z
ero
su
pe
rvis
ion
G
uid
an
ce s
ect
ion
air
su
pp
ly t
em
pe
ratu
re c
on
tro
l
Co
nn
ect
or
pin
(s)
J9·3
1 J9
-44
J9
·43
J4
·21
J4
·50
J7
.25
J7
·26
J7·2
7
J8·3
4
J8·3
5
J9·5
J8
·18
, 1
9
J3·2
8
J3·5
2
JJ
.54
J8
·16
, 1
7
Sig
na
l d
istr
ibu
tio
n b
ox
(32
A8
) te
st p
oin
ts
C23
C
24
82
4
JS
K9
M16
A
l7
81
7
F20
G
20
0
22
N
17
,Nl
AG
L7
M7
Nl6
, N
18
I I
(") ~ .,. N ...
( {
( (
( (
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Gu
ida
nce
with
ho
ld c
omm
and
Hig
h en
ergy
in
itia
tor
syst
em h
igh
volta
ge m
on
itor
Hig
h en
ergy
in
itia
tor
syst
em n
ot
safe
sup
ervi
sion
H
ori
zon
tal
alin
em
en
t sw
itch
supe
rvis
ion
Ho
rizo
nta
l a
line
me
nt
switc
h su
pe
rvis
ion
sup
ply
Inve
rte
r on
com
man
d L
ift-
off
sup
ervi
sion
L
ift-
off
sw
itch
supe
rvis
ion
Lif
t-o
ff s
witc
h su
pply
Lo
ng r
ange
pro
gram
1°
limit
sup
ervi
sion
Lo
ng r
ange
sel
ect
com
man
d Lo
ng r
ange
sel
ect
supe
rvis
ion
Mis
sile
pow
er o
n in
dica
tion
Off
sel
ect c
omm
and
Off
sele
ct s
uper
visi
on
Con
nect
or p
in(s
)
J7-5
7
J9-5
4
J4-5
1
J8-8
JB
-9
J4-1
4 J9
-3
J9-5
2 J9
-51
J5-3
0 J4
-44
J7-5
4 J4
-10
J6-2
3 J6
-35
Sig
nal d
istr
ibu
tio
n b
ox
(32
A8
) te
st p
oint
s
Gl8
F
24
L9
81
9
J13
FB
C
22
024
N20
F
ll
G9
F18
EB
H13
E1
4
' • I ~
~
N
N
(")
.l:lo
Tab
le 4
-6.
Sig
nals
on
Co
nn
ect
or
Pin
s o
f P
TS C
able
En
try
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Pha
se A
P
hase
A,
26
v a
c 4
00
Hz
Pha
se B
P
hase
8,
(SR
O p
rese
t m
oto
r su
pp
ly)
Pha
se 8
, 26
v ac
40
0 H
z P
hase
C
Pha
se C
, 2
6v
ac
40
0 H
z P
itch
att
itu
de
mo
nit
or
Pitc
h a
ttit
ud
e s
ub
stitu
te c
omm
and
Pitc
h g
yro
to
rqu
er
con
tro
l ph
ase
Pitc
h p
en
du
lum
ou
tpu
t P
itch
pro
gra
m 1
° lim
it s
up
ply
P
itch
pro
gra
m z
ero
com
man
d P
itch
pro
gra
m z
ero
supe
rvis
ion
Pos
ition
ing
sign
al e
xcita
tion
Pro
gram
gen
erat
or h
old
com
man
d R
egul
ated
gen
erat
or 1
retu
rn (
-D)
Reg
ulat
ed g
ener
ator
1 +
28v
de (
+ D
11)
{I
(,.
(
Con
nect
or p
in(s
}
J4-5
8
J6-1
1
J4-5
9
J3-5
9
J6-4
8
J4-6
0
J6-l
7
J7-5
, 6
J7-1
1,
12
J8
-25
, 2
6
J8-4
7,
48
J5
-26
J5
-22
J5
-29
J2
·52
J4-3
5 J4
-2
J4·1
2
(
Sig
nal d
istr
ibut
ion
box
(32
A8
) te
st p
oint
s
f
E12
Hl2
N
9 N
8 C
15
NlO
8
8
Ml5
, A
l6
K1
6,
Ll6
L
l9,
Ml9
C
21,
021
01
1
MlO
E
ll
C3
C9
N12
N
ll
(
\ I ~
n - .. N w
( (
{ {
( (
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Reg
ulat
ed g
en
era
tor
2 re
tu. n
( -
D)
Reg
ulat
ed g
en
era
tor
2 +
2B
v de
( +
D2
1)
Ret
urn
-DlO
(m
on
ito
r)
Ret
urn
-D2
0 (
mo
nit
or)
R
oll
att
itu
de
mo
nit
or
Rol
l a
ttit
ud
e s
ub
stitu
te c
om
ma
nd
R
oll
gyr
o t
orq
ue
r co
ntr
ol
phas
e S
A i
nte
gra
tor
stop
com
man
d S
AD
hol
d co
mm
and
SA
D m
on
ito
r an
d su
bst
itute
com
man
d S
AV
hol
d co
mm
and
SA
V m
on
ito
r (S
I, S
2)
SA
V m
on
ito
r a
nd
su
bst
itu
te c
omm
and
SA
V o
ffse
t co
mm
and
SA
V s
witc
h su
pe
rvis
ion
S
AV
ze
ro c
omm
and
Sec
ond
stag
e a
ctu
ato
r sw
itch
sup
ply
Con
nect
or p
in(s
)
J4-4
J4
-6
J4-1
J4
-15
J7
-l,
2 J7
-7,
B
JB-5
1,
52
J3
-50
J3
-36
J7
-36
J3
-55
, J5
-11
J3
-6,
5 J7
-37
J3
-35
J3
-51
J3
-34
J9
-32
Sig
nal d
istr
ibu
tion
box
(3
2A
8)
test
po
ints
Fl3
A
l3
CB
GB
Bl6
,Cl6
F
l6,G
l6
G21
, H
21
J7
J6
Hl7
A
B,
FlO
H
4,G
4
Jl7
H
6 K
7 G
6 N
20
' I ~
\
• fl,)
T
able
4-6
. Si
gn
als
on C
on
nec
tor
Pin
s of
PTS
Cab
le E
ntry
P
anel
s-C
on
tin
ued
•
Sig
nal
Tac
tica
l C
able
En
try
Pan
el (
A4
Al)
-Co
nti
nu
ed
Sec
ond
sta
ge
act
ua
tor
1 oi
l te
mp
era
ture
sw
itch
su
pe
rvis
ion
S
eco
nd
sta
ge
act
ua
tor
1 o
pe
rati
ng
pre
ssu
re
sup
erv
isio
n
Sec
on
d st
age
act
ua
tor
1 p
rech
arg
e p
ress
ure
an
d
oil
leve
l su
pe
rvis
ion
S
eco
nd
stag
e ac
tua
tor
2 o
il te
mp
era
ture
sw
itch
sup
erv
isio
n
Sec
ond
stag
e a
ctu
ato
r 2
op
era
tin
g p
ress
ure
su
pe
rvis
ion
S
econ
d st
age
act
ua
tor
2 p
rech
arg
e p
ress
ure
an
d
oil
leve
l su
pe
rvis
ion
Sec
ond
sta
ge
act
ua
tor
3 o
il te
mp
era
ture
sw
itch
su
pe
rvis
ion
Sec
ond
stag
e a
ctu
ato
r 3
op
era
tin
g p
ress
ure
n
su
pe
rvis
ion
Co
nn
ecto
r p
in(s
)
J9
·33
J9
.35
J9
·34
J9
·36
J9
·38
J9
·37
J9
·14
J9
·40
-
Sig
nal
dis
trib
uti
on
bo
x ( 3
2A
8)
test
poi
nts
02
3
F2
3
E2
3
G2
3
J2
3
H2
3
F2
2
L2
3
)
I
( (
( {
( (
' n
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of P
TS C
able
Ent
ry P
an
els
-Co
ntin
ue
d
-S
igna
l C
onne
ctor
pin
(s)
Sig
nal
dis
trib
utio
n b
ox
I (3
2A
8)
test
poi
nts
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Sec
ond
stag
e ac
tuat
or 3
pre
char
ge p
ress
ure
and
J9-4
1
M2
3
oil
leve
l su
perv
isio
n S
econ
d st
age
pum
p m
oto
r on
com
man
d J4
-22
K
8 S
econ
d st
age
vane
1 p
ositi
on m
on
itor
J7-2
8
Cl7
S
econ
d st
age
vane
2 p
ositi
on m
on
itor
J7-2
9
01
7
Sec
ond
stag
e va
ne 3
pos
ition
mo
nito
r J7
-30
E
17
Sel
ect
supe
rvis
ion
supp
ly
J6-1
5
Ll2
S
ervo
ampl
ac
pow
er o
n co
mm
and
JS-2
0
KlO
S
ervo
ampl
de
pow
er o
n co
mm
and
JS-2
1 L
lO
Sh
ort
ran
ge p
rogr
am 1
° lim
it s
uper
visi
on
J5-1
9
JlO
S
ho
rt r
ange
pro
gram
rev
erse
com
man
d J5
-25
C
ll
Sh
ort
ran
ge s
elec
t su
perv
isio
n J7
-53
E
l8
Sig
nal
com
mon
gro
und
J7-6
0
Hl8
S
imul
ated
fir
st s
tage
sep
arat
ion
com
man
d J4
-48
J9
olao
SRO
coa
rse
(Sl,
S2,
$3
) J3
-21
, 2
0,
19
H
5, G
5, F
5
~
SRO
fin
e (
Sl,
$2,
S3)
J3
-27
' 2
6,
25
M
S,
E4,
l5
c.n
SR
O h
old
com
man
d JS
-10
E
lO
~
\ .,.
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of P
TS C
able
Ent
ry P
an
els
-Co
ntin
ue
d
~ °'
Sig
nal
dis
trib
utio
n b
ox
Sig
nal
Con
nect
or p
in(s
) (3
2A
8)
test
poi
nts
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
SRO
med
ium
(S
l, S
2, S
3)
J3-2
2, 2
3, 2
4 JS
,85
,KS
•
SRO
pre
sett
ing
mo
tor
cont
rol
phas
e J3
-43
, 4
4
07
, E7
SR
O r
elea
se c
omm
and
J3-2
9
86
S
RV
coa
rse
(51
, 5
2,
53
) J3
-10
, 1
1,
12
L4,
G5,
M4
5RV
fin
e (
51
, 52
, 5
3)
J3-1
8,
17,
16
E5,
E4,
05
5R
V h
old
com
ma
nd
J5-9
0
10
5R
V m
ediu
m (
51
, 52
, 5
3)
J3-1
3,
14,
15
A
5, 8
5,C
5
SR
V m
on
ito
r (S
l, 5
2)
J3-9
, 8
K4,
J4
5R
V m
oto
r co
ntro
l J3
-37
K
6 SR
V p
rese
ttin
g m
oto
r co
ntro
l ph
ase
J3-3
9,
40
M
6,
A7
SRV
rele
ase
com
man
d J3
-45
f 7
S
T-1
20
air
pre
ssu
re s
witc
h su
perv
isio
n JS
-36
H
20
S
T-1
20
bas
e pl
ate
tem
pe
ratu
re s
uper
visi
on
JS-5
6
L21
ST
-120
bas
e pl
ate
tem
pera
ture
sup
ervi
sion
sup
ply
JS-5
7
Jl3
I
5t-
l 20
he
ate
r co
ntro
l JS
-33
E
20
(")
5T
-12
0 h
eate
r co
ntro
l re
lay
supp
ly
J8-4
2
f 1
9
.i:.
{ {
( {
{ {
/'
{ (
( {
( (
' n
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tinu
ed
Sig
nal d
istr
ibu
tion
box
I S
igna
l C
onne
ctor
pin
(s)
(32
A8
) te
st p
oint
s
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Sur
face
sel
ect c
omm
and
J6-1
9
C13
S
urfa
ce s
elec
t su
perv
isio
n J6
-28
L
13
S
witc
h p
oin
t 1
com
man
d su
perv
isio
n J7
-50
8
18
S
witc
h p
oin
t 2
com
man
d su
perv
isio
n J7
-51
C
18
S
witc
h p
oin
t 3
com
man
d su
perv
isio
n J7
-52
0
18
S
ynch
rotr
an
smitt
er
on c
omm
and
J3-3
0
C6
T-p
ot r
elea
se c
omm
and
J3-3
8
L6
Tai
l pl
ug r
elay
com
man
d J9
-49
N
19
T
ail
plu
g r
elay
com
man
d su
pply
J9
-50
N
19
T
ail
plu
g r
elay
sup
ervi
sion
J9
-42
A
24
T
heod
olite
lam
p fix
ed
J2-1
9,
20
F
2,G
2
The
odol
ite l
amp
vari
ab
le
J2-1
9,
20
F
2, G
2 T
hru
st t
erm
ina
tion
and
sec
ond
stag
e se
para
tion
J4-4
0
E9
com
man
d su
perv
isio
n
.. U
mb'
ilica
l re
leas
e su
perv
isio
n
I J4
-54
I M
9
N
Unc
aged
sup
ervi
sion
J8
-22
J1
9
..., V
anes
loc
ked
supe
rvis
ion
J9-5
7
L3
4
~
~
N co
(") ~
Tab
le 4
-6.
Sig
nals
on
Con
nect
or P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tinu
ed
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
Van
es u
nlo
ck c
omm
and
War
head
co
ntin
uity
sup
ervi
sion
W
arhe
ad c
on
tinu
ity s
uper
visi
on s
uppl
y W
arhe
ad s
igna
l w
ithho
ld c
omm
and
War
head
sig
nal
with
hold
rel
ay s
uper
visi
on
War
head
1 c
oars
e ($
1,
$2
, $
3)
War
head
1 f
ine
($
1,
$2,
$3
) W
arhe
ad 1
rel
ease
com
man
d W
arhe
ad 1
ser
vom
otor
co
ntr
ol
phas
e W
arhe
ad 2
coa
rse
($1
, S
2, 5
3)
War
head
2 f
ine
($
1,
$2,
S3
) W
arhe
ad 2
rel
ease
com
man
d W
arhe
ad 2
ser
vom
otor
co
ntr
ol
phas
e W
arhe
ad 3
coa
rse
(Sl,
$2
, $
3)
(!
{'
(
Con
nect
or p
in(s
)
J5-4
0
J6-5
J6
-3
J9-3
9
J9-1
8
J6-2
4,
51,
43
J6
-45
, 4
4,
12
J6
-46
J6
-56
, 5
7
J6-9
, 3
0,
31
J6-5
3,
8,
10
J6
-34
J6
-32
, 3
3
J 6
-49
, 5
8,
50
{ (
Sig
nal
dis
trib
utio
n b
ox
(32
A8
) te
st p
oint
s
Gll
C
l2
81
2
K23
G
22
Kl3
, 8
5,
Ml4
A
l5,
E4,
Jl2
8
15
Jl
5,
Kl5
F
l2,
85
, A
l4
Gl5
, E
4, G
l2
01
4
81
4,C
l4
01
5,
85
, E
l5
{
\ I ~
( (
( (
( (
n T
able
4-6
. S
igna
ls o
n C
on.n
ecto
r P
ins
of
PTS
Cab
le E
ntry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Tac
tical
Cab
le E
ntry
Pan
el (
A4
Al)
-Co
nti
nu
ed
War
head
3 f
ine
($
1,
$2
, $
3)
War
head
3 r
elea
se c
omm
and
War
head
3 s
erv
om
oto
r co
ntr
ol
phas
e W
arhe
ad 4
coa
rse
($1
, $
2,
$3
) W
arhe
ad 4
fin
e (
$1
, $
2,
$3
) W
arhe
ad 4
rel
ease
com
man
d W
arhe
ad 4
se
rvo
mo
tor
con
tro
l ph
ase
X, Y
, an
d Z
gyr
o t
orq
ue
r co
nst
an
t ph
ase
(ph
A
and
C)
Yaw
att
itu
de
mo
nit
or
Yaw
att
itu
de
su
bst
itute
com
man
d Y
aw g
yro
to
rqu
er
con
tro
l ph
ase
Yaw
pe
nd
ulu
m o
utp
ut
11
5v
ac,
40
0 H
z p
latf
orm
he
ate
r su
pply
(l2
0)
_,.
11
5v
ac 4
00
Hz
pla
tfo
rm h
ea
ter
supp
ly (
ne
utr
al)
N
co
Con
nect
or p
in(s
)
J6-1
4,
36
, 1
6
J6-5
9
J6-3
7,
38
J6
-52
, 6
0,
55
J6
-22
, 2
1,
42
J6
-39
J6
-40
, 41
J8
-37
, 3
8
J7·3
, 4
J7-9
, 10
J8
-49
, 5
0
J8-4
5,
46
J8
-39
J8
-40
Sig
nal d
istr
ibu
tion
box
(3
2A
8)
test
poi
nts
Kl2
, E
4,
M1
2
L1
5
F1
4,G
14
F
15,
85
, H
15
G
l3,
E4,
L
14
H
14
J1
4,
K1
4
J20
, K
20
01
6,
E16
H
16
,J1
6
E21
, F2
1 A
21,
82
1
K1
9
N2
8
' I I ~
.,.. w
0
n
Ta
ble
4-6
. S
ign
als
on
Co
nn
ect
or
Pin
s o
f P
TS
Cab
le E
ntry
Pa
ne
ls-C
on
tin
ue
d
Sig
nal
Ta
ctic
al
Ca
ble
En
try
Pa
ne
l (A
4A
l)-C
on
tin
ue
d
+ 2
5v d
e p
ow
er
sup
ply
-
2 5
v de
po
we
r su
pp
ly
+2
8v d
e +
01
0 m
on
ito
r +
28
v de
+ 0
20
mo
nit
or
Po
we
r C
ab
le E
ntr
y P
anel
(A
4A
3)
Mis
sile
po
we
r on
co
mm
an
d
( (
Co
nn
ect
or
pin
(s)
J7
-39
J7
-38
J4
-10
J4
-9
JG-1
9
Sig
nal
dis
trib
uti
on
box
(3
2A
8)
test
po
ints
Ll 7
K
l7
ES
08
J2
7
I
Table 4-7. Power Distribution Buses
Connector pin (s) on power cable
entry panel Bus Location (A4A3)
Adapter (32A2) I + 01 03 (+28v dc) TB9-3 , .4 See note.
Power Distribution Assembly (32A6)
- 0100 ( 28v de TBl l · l thru J4·E, F retu rn ) .4
+ 0101 ( + 28v de) TBll -7,·8 J 5. 1 + 0102 ( +28v de) TB10·8 thru J 5.2
-10 + 010 3 ( +28v de) TBl 1·9, ·10 See note. + 0300 ( + 24v de) TB9 ·4, .5 J5-6 + 0301 ( + 24v de) TB9 ·8 thru J5·6
· 10 + 0 305 ( + 24 / TB8 - l J5·6, J5·1
28v de) Ll 2( 120vac) TB3·8 J4·A ( LlO) L22 ( 120vac) TB3-9 J4-B ( l 20) L32 ( l 20v ac) TB3·10 J4-C (L30) Neutral TB2·7 thru J4-D
.10 + 12v de TB6·3, -10 See note. -12v de TB6·9 See note .
Signal Distribution I
,....,, Box (32A8) + 0201 A2 J6·20
Note. Hardwired directly to adapter power suppl ies.
C4 4-31
4-5 . Adapter Diagnostic Test Modes.
I WARNING I All jumper caps must be removed after performing the test modes listed below. Fai lu re to remove the jumper caps prior to initiation of a coun t· down with a live missile may result in injury to personnel or damage to equipment.
a. Mode 00. PTS tactical, with azimuth laying control box and remote firing box.
b. Mode 01 . PTS tactical , without azimuth laying control box and remote firing box.
c. Mode 02. PTS with guidance section in.container .
d. Mode 03. PTS with first stage in.container .
e. Mode 04. PTS with second stage in-con ta iner.
f . Mode 05 . SCTS with tactica l jumper caps.
I g. Mode 06. SCTS guidance section with jumper caps (in con·
tainer) .
h. Mode 07. SCTS guidance section with jumper caps (in van).
i. Mode 08. SCTS first stage with jumper caps.
j. Mode 09. SCTS second stage with jumper caps.
4-32 C4
n w ,,. w
w
(
Mod
e J2
00
01
w
0
2
03
04
05
IG
06
07
( (
( T
able
4-8
. Ju
mp
er
Cap
Inf
orm
atio
n
Tac
tical
cab
le e
ntry
pan
el
Tes
t cab
le e
ntry
pan
el
Pne
u.
32
A4
Al
(PT
S)
or
32
A4
A2
(P
TS
) o
r te
st
95
A3
2A
4A
l (S
CTS
) 9
5A
32
A4
A2
(S
CTS
) co
nsol
e
J56
th
ru
J3 J
4 J
S J
6 J
7 J
S J
9 J
lO
J1 J
2 J
3 J
4 J
S J
6 J
7 J
S
J65
R
R
R
R
R
R
R
R
w w
w
w w
w
w
w
y y
y y
y y
y y
y
B
B
B
0 0
0 0
0
G
G
G
G
G
G
G
y y
y y
y y
y y
y
x
( {
~
I F
ire
Tac
tical
cab
le
cont
rol
entr
y pa
nel
entr
y 3
2A
4A
l (P
TS
) pa
nel
or9
5A
32
A4
Al
32A
4A5
(SC
TS)
J6
J2
60
Wl8
6
0W
44
and
an
d R
FB
ALC
B
x
~
• w
• n w
Tab
le 4
-8.
Jum
pe
r C
ap I
nfo
rma
tio
n-C
on
tin
ue
d
Tac
tical
cab
le e
ntry
pan
el
32
A4
Al
(PT
S)
or
95
A3
2A
4A
l (S
CTS
)
Mod
e J2
J3
J4
08
0
9
Co
lor
code
:
B -
blu
e
G -
gre
en
(
JS (
J6 J
7 J
S J
9
B
0 -
ora
ng
e
R -
red
{
JlO
Tes
t cab
le e
ntry
pan
el
32
A4
A2
(P
TS
) o
r 9
5A
32
A4
A2
(S
CTS
)
J1 J
2 J
3 J
4 J
S J
6 J
7 J
S
B
B
0 0
0 0
W
-w
hite
or
alu
min
um
Y
-ye
llow
Fire
T
actic
al c
able
co
ntro
l en
try
pane
l P
neu.
e
ntr
y 3
2A
4A
l (P
TS
) te
st
pane
l o
r95
A3
2A
4A
l co
nsol
e 3
2A
4A
5
(SC
TS)
JS&
th
ru
J65
J6
J2
X -
no c
olo
r de
sign
atio
n
( (
(
\ I ~
(
.,. ;,, en
( (
HO
IST
PO
INT
S
11
,60
0 L
B (
5,2
61
.76
KG
) E
AC
H (
TY
P,
BO
TH
EN
DS
)
SI
39
.1 I
N.
( 1.0
0 M
)
I 9
6,0
IN
. I
(2.4
4 M
)
,.
98
.5 I
N·------..i
NO
TE
: (2
.50
M)
WE
IGH
T:
4,29
1 L
B (
1,9
48
KG
t
( (
( T
IEO
OW
N P
OIN
TS
1
1,6
00
LB
(5
,26
1.7
6 K
G)
EA
CH
(T
YP
, B
OT
H S
IDE
S)
~HOIST P
OIN
TS
DI
n 81
.5 I
N.
(2.0
7 M
)
~
\ ·~1J
L•4
.0 IN
._.j
• •\
.11
2.6 IN
. (0
.86
M)
(0.3
2 M
)
__
__
_ 8
0.2
5 I
N.
(2.0
4 M
) T
OW
PO
INT
S O
R T
IEO
OW
N P
OIN
TS
1
1,6
00
LB
(5
,26
1.7
6 K
G)
EA
CH
(T
YP
, B
OT
H S
IDE
S)
FS
NB
-14
Figu
re 4
-1.
PTS
shel
ter
phys
ical
dat
a.
, _,)
~
w °' n
w
NO
TE
S:
1. W
EIG
HT
: 2
4,7
47
LB
(1
1,2
25
KG
).
2.
AX
LE
LO
AD
S:
C &
D
-5,8
78
LB
(2
,66
7 K
G)
EA
CH
. E
& F
-6,4
95
LB
(2
,94
3 K
G)
EA
CH
.
70.
3 IN
. (l
.79
M)
00
139.
0 IN
, (3
.53
M)
r95.0IN.~
(2.4
1 M
) I
FS
NB
-13
C.
Fig
ure
4-2
. P
TS-P
S t
ran
spo
rtat
ion
dat
a.
{ (
( (
{ (
"\
)
17
15
1 - Remote firing box 2 - Azimuth laying control box 3 - Air duct register 4 - Phone control panel assembly
'W 5 - Adapter 6 - Storage cabinet 7 - Card and module test set 8 - Power distribution assembly
FSNB-31
9 - Power distribution assembly circuit breaker panel 10 - Signa I distribution box
.,,., 11 - Computer box front access panel 12 - Computer box top access panel 13 - Computer 14 - Air filter 15 - First aid kit 16 - Blower
._, 17 - Storage cabinet
Figure 4-3. PTS interior, left side.
4-37
4-38
cii "O 'iii ... .r:. bD ·;:
..: 0 ·;: Q)
c
Q) ... ::I bD il:
Cl
n - I
~ w
'°
{ (
(
1 -
Laun
ch c
on
tro
l pa
nel
asse
mbl
y 2
-M
ain
ten
an
ce p
anel
ass
embl
y 3
-S
tora
ge c
abin
et
4 -
Uti
lity
pane
l ass
embl
y 5
-U
tilit
y ci
rcu
it b
rea
ker
pane
l as
sem
bly
6 -
Air
du
ct r
egis
ter
7 -
Te
lep
rin
ter
, 8
-T
ape
stor
age
cab
ine
t 9
-A
ir c
on
diti
on
er
10 -
Air
su
pp
ly r
eg
iste
r 11
-
Air
co
nd
itio
ne
r fi
lte
r 12
-A
ir c
on
diti
on
er
con
tro
l pa
nel
13
-R
emot
e fi
rin
g b
ox c
able
ree
l as
sem
bly
(tra
vel
po
sitio
n)
( {
14
-S
tora
ge c
abin
et
15 -
Con
veni
ence
ou
tlet
(4)
16
-A
uxi
liary
hea
ter
17 -
Wor
kben
ch
18
-S
igna
l d
istr
ibu
tion
box
19
-B
low
er
20
-C
onso
le
(
21
-V
olta
ge-p
hone
mo
nito
r pa
nel
asse
mbl
y 22
-C
ount
dow
n co
ntro
l pa
nel a
ssem
bly
23 -
Azi
mut
h la
ying
con
trol
pan
el a
ssem
bly
24
-T
ape
rea
de
r 25
-H
and
lan
tern
Fig
ure
4-4
. P
TS i
nte
rio
r, r
igh
t si
de -
Lege
nd.
' ~
r
CHAPTER 5 POWER STATION
(CONTENTS)
Item
PS enclosu re, right fron t ................. . PS shelter physica I data ................. . . Tabulated data .............................. . .
Cl
Reference
Fig. 5 -2 Fig. 5 · l Par. 5-1
Page
5.7 I 5-6 5.3
II
5-1
CHAPTER 5 POWER STATION
5-1 . Tabulated Data.
a. General.
Max tilt angle: Operation ........ . ............. ......................... ..... ...... ....... 6 ° Shipment ...................... .. . . .... . .. ... .. . .... .. . . ... ......... .... 30°
Temperature where conditioning set is needed .................................. Below -31.7 ° C (-25°F)
Max operational altitude .. ............... ...... 8,000 ft (2438 m) Convenience receptacle power ...................... l 20v, 400 Hz
b. Gas Turbine Engine.
Governed speed ................................ 42,000 rpm ( 100%) Overspeed shutdown .................................. .. .... 110% rpm
Max exhaust temperature: Operating ....................................................... 640°C (l,184°F) I Shutdown (normal) ............................................. 460 °C (860 °F) Shutdown (emergency) .. .. .............. ....... .. ....... 720°C ( l ,328°F)
Electrical system: Operating ....... ... ............ . ............ . ...... . ...... .............. 28v Starting ............. . ....... . .... ... ...... ... ..... .... . .... ... ... . .... . .. 24v
Operating oil pressure: Engine ................................................... 80 to 100 psig Gearbox ................................................... 15 to 50 psig
Gearbox oil filter bolt torque .... .. .. .. .... .. .... .. .. 36 to 70 in.-lb Low oil pressure lamp indication:
Engine ........................ .. ........................... 27 to 30 psig Gearbox ......................................................... 9 ± 1 psig
c. Air Conditioner.
Airflow to missile (sea level) .............. 37 .6 ± 2.6 lb per min Discharge pressure .. .................. .... .................. 2 to 5 psig Bleed air duct, clamp bolt torque .......... ... .. .. 60 to 70 in.-lb
d. AC Generato r.
Speed .... . .... . ... ... ... ...................... .. ... . ... ... .. ...... 6,000 rpm Rating:
KVA ................. .. ..................................... .40 at 0.75 pf Voltage ................. .. ........................ ........ ...... . 120/ 208
Frequency ... . .... .... ....................... . ..... ........ ........ ... 400 Hz Phases .................... ..... .... .. .. .. ... .... ..... .. ... ..... .. . .... ......... 3 Type of connection ........................................... 4 -wire wye
C4 5-3
Lamp indications: Overvoltage ................................................ 16 2 to 17 6v Undervoltage ................................................. 53 to 67v Underfrequency ................................................. 373 Hz
e. DC Generator. ~
Speed ............................................................. 6,000 rpm Rating:
Voltage .................................................................... 30 Amperes ................................................................ 300
Lamp indication, overvoltage ............................ 35.5 to 39v Undervoltage disconnection .................................. 7 to 1 lv ~
f. Air Compressor.
Nominal discharge pressure ............................. 3,000 psig Speed ............................................................. 4,000 rpm
I Lamp indication, low oil pressure ..................... 20 psig min \_.I
g. Instant Air System Cylinder.
Nominal pressure ............................... 2,900 to 3,000 psig Volume ............................................................... 1.5 cu ft Pressure rating ................................................ 3,600 psig·
h. Battery (2).
Type ........................................................ Nickel cadmium Rating:
Voltage ............................................. 12 (single battery) 24 (series connected batteries)
Ampere-hours .......................................................... 70 Cells ........................................................................... 10 Electrolyte .......................... Alkaline (potassium hydroxide) Weight (filled) ............................................. 80 lb (36 kg) Limiting charge:
Voltage .................................................... l.55v per cell Current ............................................................ 40 amp
i. Battery Charger.
Power: I Input ................................. 120/208v, 3-phase, 400 Hz
Output .................................................. 28v de, 35 amp
5.4 C3
r j. AC Voltage Regulator.
·voltage adjusting range .................................. 200 to 218v
k. DC Voltage Regulator (2).
Voltage adjusting range ...................................... 25 to 35v ~IC •• • apac1t1es.
Fuel tank .......................................................... 82.25 gal Engine oil tank ......................................................... 1 gal Gearbox oil sump .................................................... 1.7 qt
~ Air compressor oil sump ............................................. 3 pt
5.5
UI °' n w
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T:
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FS
NB
-24
B.
Fig
ure
5-1
. PS
she
lter
phys
ical
dat
a.
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NB
-49 I
-'-'
CHAPTER 6 AZIMUTH LAYING SET
(CONTENTS)
Item
Azimuth laying equipment ................ . Equipment container 1 .................... . Equipment container 2 .................... .
¥ Tabulated data ............................... . Theodolite scale reading .................. . Theodolite scales ............................ .
Reference
Fig. 6-1 Fig. 6-3 Fig. 6-4 Par. 6-1 Par. 6-2 Fig. 6-2
Page
6-5 6-7 6-8 6-3 6-6 6-6
6-1
•
r
CHAPTER 6 AZIMUTH LAYING SET
6 -1 . Tabulated Data.
a. Battery Box. Refer to TM 5·6675 -296· 12 or TM 5·6675·1 296·35 for data regarding the battery box.
b. Bed Assembly.
Length ......... ................... .............. 33-3/ 4 in. (85.73 cm ) Width ...................... .. . ... . ..... .. .. .... ... . 9 -1 / 4 in . (23.50 cm) Height ....... ...... .. ... ..... .... .. .. . .... . ....... 6-112 in. ( 16.51 cm) Weight.. .... . ...... ... ................... ........... .. ..... 22 lb (9 .99 kg)
c. Control Box (Stored in PTS) .
Length ....................... .... ...... .... .. .... ..... ... 9 in. (22.86 cm) - Width .. ............... .... ..... .. .. ............. ... 6-3/ 4 in. ( 17 . 15 cm)
Height ......... ...... ......... .... .. ......... ... 5-3/ 64 in. ( 12.82 cm) Weight. .. .. ... .. .. ... .. ............. . .............. ... ... . ... 6 l b (2.72 kg) Power requirements .... ...... .. ................ l 15v, 400 Hz, and 28v de I
d. Equipment Container 1.
Length .... .. ................... .. .. .. ... ................ 43.1 in . (l.09 m) Width ..... ........ ................... ... .. . . ..... .. .. 28. 1 in. ( 71.37 cm) Height ........ .... .. ... ....... .... ......... .. ..... .. 23.2 in . (58.92 cm) Weight (empty) .. ........................ . .... .. 162.8 lb (73.84 kg) Weight (loaded) .................... .. . .... .. .... 287 lb (130. 18 kg)
e. Equipment Container 2.
Length .................................................. 43.1 in. (l.09 m) Width ................. .. .......................... .. . 28.l in. (71.37 cm) Height .......................... ..... .............. . 2 3.2 in. (58.92 cm) Weight (empty) ......................... . ....... 109.9 lb (49.85 kg) Weight (loaded) ........... ......... .. . ... 238-2/ 3 lb (108.36 kg)
f. Headset-Microphone Assembly.
Length ..... ........... ... .. ... ....... ... ...... . .. . 6-1 / 2 in. (16.51 cm) Width ....................... ...... . .................. 3 -5 / 8 in. (9.2 1 cm) Height (retracted) ..... . . .. ............ .... . . . ...... 9 in. (22.86 cm) Cable length .............. . . ........... . ..... ... ... . ... ... 19 f t (5.79 m)
Weight ............. ............................................. 2 lb ( 90 7 g)
C4 6-3
g. Illuminated Sunshade Assembly.
Note All dimensions and weights are approximate.
Length .....•.........•.•............................... 10 in. (25.40 cm) Width (with adapter plate) ................ 5·3/8 in. ( 13.65 cm) Width (without adapter plate) .................... 3 in. (7.62 cm) Height ............................................ 5·1/4 in. (13.34 cm) Weight (with batteries) .................................. 1 lb (454 g)
h. Metal Tripod. Length (legs retracted) .................. 35·1/4 in. (89.54 cm) Width (tripod head) ....................... 14·5/8 in. (37.15 cm) Height (tripod head) ...................... 13·1/2 in. (34.29 cm) Weight .................................................. 46 lb (20.86 kg)
i. Target Set Carrying Case With Contents. Length .......................................... 12.114 in. (31.12 cm) Height .......................................... 10·1/2 in. (25.73 cm) Depth ............................................. 6· 1/8 in. ( 15.56 cm) Weight. ........................................................ 2 lb (907 g)
I j. Theodolite. Refer to TM 5·6675·296·12 or TM 5·6675·296· 35 for additional data regarding the theodolite.
Telescope ..................................................... 28X (power) Shortest focusing distance ......................... 4.5 ft ( 1.37 m) Longest aiming distance at which centimeter
can be read ........................................ 1,000 ft (305 m) Longest aiming distance at which mil can be
evaluated .............................................. 465 ft ( 142 m) Normal range ............................. 6 to 12 mi ( 10 to 19 km)
I Accuracy of circle readings ......................................... • 0.001 mil Multiplication constant ......................................................... 100 Addition constant ..................................................................... 0
I Graduation interval of horizontal circle ...................... 0.002 mil Weight .................................................... 12.3 lb (5.6 kg) Carrying case ............................................ 4.8 lb (2.2 kg)
k. Theodolite Sunshield Tent Assembly. Length ..................................................... 74 in. (l.88 m) Width ...................................................... 74 in. ( 1.88 m) Height ..................................................... 76 in. ( 1.93 m) Weight ................................................. 69 lb (31.30 kg)
I I. Tripod. Refer to TM 5-6675-296-12 or TM 5·6675-296·35 for additional data regarding tripod T2.
Length extended ...................................... 63 in. (160 cm) Length folded ...................................... 38.5 in. (97.8 cm) Weight .................................................... 14.4 lb (6.5 kg)
C4
Cl
ORlENTING STATION THEODOLITE (OST)
ORIENTING LINE TARGET (OLT )
VERTICAL LAYING THEODOLITE (VLT)
HORIZONTAL LAYING
THEODOLITE (HLT)
A. AZIMliTH LAYING SET, MAJOR COMPONENTS
B . AZIMUTH LAYING CONTROL BOX
FSNB - 23A I
Figure 6-1. Azimuth laying equipment.
6-5
6-2. Theodolite Sca le Read ing.
The scales of the theodolite (fig. 6-2) are read by looking th rough the microscope eyepiece attached to the telescope. The horizontal circle illuminating mirror must be reflecting light into the theodolite. The inverter (circle selector) knob must be in the horizontal position for the correct angle to be read. The whole.number portion of the scale is divided into two parts. The upper half appears inverted, and the scale readings are exactly 3,200 mils opposite the sca le readings of the lower half. A scribe mark is set in the center of the lower scale. The first number on the lower scale to the left of the scribe mark 1s the number that is read for a direct reading. The first number on the upper half of the scales to the right of the scribe mark is 3,200 mils opposite the number on the lower ha lf of the scales: this number is read for a rever se reading. The number of spaces is counted from the first number to the left of the scribe mark on the lower half of the scales to the first number to the right of the scribe mark on the upper ha lf of the scales. This number is the unit value that 1s combined with the number read from the lower hal f of the scales to give the complete whole.number part of the direct scale reading. (The graduation marks of the upper scale must coincide with the graduation marks of the lower sca le before a reading can be obtained.) The decimal part of the scale readings is read from a second small scale below the whole.number scales. This scale can be read to 0.002 mil. and must be interpolated to the nearest 0.001 mil. A reverse reading is a combination of the decimal reading and the whole-number reading from the upper ha lf of the whole.number scales.
6-6
DIRECT 207G. 2:;4 REVERSE ;)276. 2:;4
Figure 6-2. Theodolite scales.
FS:\B-:lli
CHAPTER 7 BATTERY CONTROL CENTRAL
(CONTENTS)
Item sec interior, left side ..... ..... ....... ..... . sec interior, r ight side ........... .. ....... . sec shelter physica l data· ············· ··· sec t ransportation data·· ····· ·· ··· ······· Gene ral .................. ... ...................... ...... . Tabulated data ....... ........ .. .. .. .... ....... ...... .
Reference
Fig. 7.3 Fig. 7- 2 Fig. 7-1 Fig. 7.4 Pa r. 7-1 Par. 7 ·2
Page
7-6 7.4 7.3 7 -8
7·2.1 I 7·2.1
I
C4 7·1 /(7·2 blank)
CHAPTER 7 BATTERY CONTROL CENTRAL
I 7-1. General.
The BCC provides a centralized facility for consolidation of all release communications and for batte ry command and control functions.
"-"" I 7-2. Tabulated Data.
a. Primary Power System. Trailer-mounted 15-kw generator, towed behind the vehicle for 120/208-volt, 3-phase, 60-Hz pow· er. Two 25v de power supplies. One 9v de power supply.
b. Back·Up Emergency Power System . 24v de battery source from the vehicle.
C4 7·2.1 /(7·2.2 blank)
·--
'-1
- ____ _,·
(")
""
" w
267.0 IN .cu, ,v ...... .
HOIST POINT (6.78M) (TYP BOTH SIDES)
(SEE NOTE 2) (
~ -··· DD DJ Dl '~ .,... " •
39.7 IN. .... ( 1.01 M )
* 14--- 99.1 IN. ----
(2.52M) 2-03.S '" --I ~ (5.17M)
NOTES,
1. WEIGHT, 11,818 LB (5,361 KG). 2. TWO WRECKERS M543 AND TWO MULTI LEG SLINGS
ARE REQUIRED WHEN LIFTING acc.
(
HOIST POINTS (SEE NOTE 2)
Figure 7 -1. BCC shelter physical data.
I
FSNB-l CI
..., .;.. 22
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34
FS
NB
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Fig
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7 -2
. BC
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(4
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26
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2
7 -
Inte
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29
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33
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ile c
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35
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6 -
Wo
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Fig
ure
7-2
. B
CC
in
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rig
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7-3
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.....
.:...
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(3
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box
(3
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set
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C-2
32
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(3
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(60
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(2)
and
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18
-S
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19
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x 2
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Kla
xon
cabl
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3)
and
cabl
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sup
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1 2
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25
v de
pow
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uppl
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23
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uppl
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4 -
Bifo
ld t
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2
5 -
Ant
enna
sto
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box
2
6 -
Sec
urity
saf
e 2
7 -
File
cab
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(tw
o-d
raw
er}
2
8 -
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ir 2
9 -
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xon
trip
od
3
0 -
Typ
ewri
ter
Fig
ure
7-3
. BC
C i
nter
ior,
le
ft s
ide
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gend
•
l ~
..... • ~
TIE
DO
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TIE
DO
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PO
INT
S
(TY
PIC
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BO
TH
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)
CHAPTER 8 RADIO TERMINAL SET
(CONTENTS)
Item
RTS shel ter physical data ................ . RTS transportation data ................... .
"""" Technical characteristics ................ ..
Reference
Fig. 8-1 Fig. 8-2 Par. 8-1
Page
8-5 8-6 8-3
8-1
I
r
r CHAPTER 8
RADIO TERMINAL SET
'wl 8-1. Technical Characteristics. a. General.
Range: Non-diversity operation ........... 70 statute miles (113 km) Diversity operation ............... 100 statute miles (161 km)
~Azimuth: Coverage ...................................................... 6,400 mils
Shelter: Size (overall) ............................... 69 in. (175 cm) high,
80 in. (203 cm) deep '...,I Weight. .......................................... 4,764 lb (2,161 kg)
Primary power .............................. 208v, 4-wire, 400 Hz
Ambient temperature range: Operating .............. -25°F (-31.7°C} to 125°F (51°C) Storage .............. -65°F (-53.8°C) to 160°F (71.1°C)
b. Transmitting System.
Frequency ................................................. 4.4 to 5.5 GHz Channels .................................... 333 at 1.8-MHz intervals Type ·of modulation ...................................................... FM Power output ................................................. 1,000 watts
c. Antenna Assembly. Type ................................................................. Inflatable Support ...................... Pressurized peripheral ring and col-
lapsible aluminum frame and
'-..I Air pressure and source: feed horn support arms
Peripheral ring ....... 15 psi from motor-driven compressor Para bolo id bag ................ 4 psi from motor-driven blower
Dimensions: Paraboloid reflector diameter ................. 96 in. (244 cm) I Diameter including side support frame ........... 10 ft (3 m) Elevation above top of shelter ........................ 10 ft ( 3 m)
Position (manual): Azimuth ............ ± 3,200 mils in 100-mil increments from
roof of shelter; through 100-mil range ".._/ from operator's compartment
Wind: Storage and transport... ... 80 mph (129 kmph} with gusts
to 120 mph (193 kmph)
Cl 8-3
Assembly, disassembly, and operation ................... 40 mph (64 kmph) with gusts to
60 mph (96 kmph)
d. Communication Capabilities. Teletype circuits:
2-wire de: ~ RTS operator, Army and fire control in 3-party loop Receiver teletypewriter output to fire control RTS operator and fire control in 2-party loop
Voice frequency: 2-wire/ 4-wire, fire control to RTS radio 4-wire, RTS operator and Army ~ 4-wire duplex, RTS operator and RTS radio
Speech circuits: 2-wire between fire control and RTS radio or operator 2-wire intercom, fire control and RTS operator 2-wire/ 4-wire telephone, Army and RTS operator 4-wire plus keying line to vehicle radio ~ 4-wire spare 4-wire between RTS operator and RTS radio
e. Power Unit.
Type ............................... Gasoline-engine-driven alternator Output ........ 10 kw, 12.5 kva, 120/208v, 3-phase, 400 Hz I Fuel consumption ....................... 2-1/2 gph (9.5 liters/hr)
8-4 C3
(
CD
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S
(TY
P,B
OT
H E
ND
S)
55. 0
IN
. ., I
\
LIF
T P
OIN
TS
(TY
P,
BO
TH
EN
DS)
(l.4
0 M
)
AF
T-f-F
WD
-~~~~--+~~-
BE
AR
ING
SU
RF
AC
E
25. 0
IN
. (0
. 64
M)
X 1
3, 0
IN
. (0
. 33
M)
(TY
P,
BO
TH
SID
ES)
NO
TE
S:
l.
WE
IGH
T:
4, 8
40 L
B (
2, 1
96 K
G),
2.
NO
TE
: M
AX
TIE
DO
WN
LO
AD
: 15
, 000
LB
(6
, 804
KG
) IN
AN
Y F
OR
WA
RD
Dm
EC
TIO
N.
Figu
re 8
-1.
RTS
she
lter-
phys
ical
dat
a.
ti ...
( ~ ~
' m
0.
N
OT
ES
: 1
. W
EIG
HT
: 2
2,0
30
LB
(9
,99
2 K
G).
2
. A
XL
E L
OA
DS
: C
& D
-5,2
26
LB
(2
,37
1 K
G)
EA
CH
. E
& F
-6,4
28
LB
(2
,91
8 K
G)
EA
CH
.
T
12
4.7
5 I
N.
e (3
.17
M)
~
AX
LE
A
XL
E
AX
LE
A
XL
E
F E
D
c
FS
NB
-15
B.
(')
Fig
ure
8-2
. R
TS t
ran
spo
rtat
ion
dat
a.
w
( {'
( (
( (,1
)
...,,
Item
CHAPTER 9 CABLE DATA
(CONTENTS)
Air pressure test setup ..................... Air tern peratu re test setu p ................ Azimuth laying control box test
cabling data ................................. Cable data ....... .. .............. ....................... Cable mast cable test connections ....... Cable transport or storage area
data ............................................ Connector pin number-to-letter
cross-reference .... . ... . .... . .............. EL electr ical circuit test set cabl ing
data ................................. ... . . ... . .. Firing position auxiliary power cabl ing
data, one missile .......................... Fi r ing position cabling data ...... .. .. ..... Fi rst stage in-conta in er test cabling
data .................................. . ......... Fi rst stage in-container test cabling
data, using PSE ............................ Guidance section in-container heat
cabl ing data ................................. Guidance section in-container test
cabling data ......... . ............. . ..... .... Guidance section in-container test
cabling data, using PSE .... ..... ........ Guidance section in-van cab ling
data ............................................ Guidance section pressure test ......... Headquarters battery cabl ing data ..... Interstage electrical cable
connections ...... .................. . ......... Missile in-container heat cabl ing
data .. .......................... .............. .. Missile in-container test cabling
data ... ... . .... .... ... . . ... .. . . . ... .. .......... . Missile in-container test cabling data,
using PSE ........... .. ....................... Preparation for standby cabling
data, one missile .. .. .. ........ . ........... Prepa ration for travel cabling data .... Pressure switch test setup ...... ..........
C4
Reference Page
Fig. 9-4 9-4 1 Fig. 9.5 9-42
Table 9-18 9-28 Table 9-27 9.51 I
Fig. 9- 1 9-20
Table 9-25 9.43
Table 9-24 9-43
Table 9 -11 9-19
Table 9.4 9-9 Table 9-2 9-5
Table 9-15 9-24
Table 9-20 9.32
I Table 9-10 9-18
Table 9-17 9-27
Table 9-22 9.35
Table 9-23 9-38 Fig. 9-2 9.39
Table9-12 9-21
Table 9-3 9-8
Table 9.9 9 -17
Table 9-14 9-23
Table 9-19 9.30
Table 9.5 9-10 Table 9-8 9- 15
Fig. 9-3 9-40
9-1
(CONTENTS- CONTINUED)
Item Reference Page
QRA auxi l ia ry and stand by power cab ling da ta , three missiles ... ....... . Tab le 9-7 9- 13
QRA standby cabling data , two missiles ............ .. . .... ....... ..... . .... .. . Table 9-6 9-11
Reference designations ...... ... .......... . I RFI cables ............................................ . .
Table9- l 9 .3 Table 9-26 9-50
SCTS cabl ing data , using PSE ............... . Table 9-13 9-22 Second stage in-con tainer test
ca bl ing data ...................................... .. . Tab le 9-16 9-26 Second stage in-container test
cabl ing data, using PSE ........... ........... .
'Ty:i~~~lri~~ll~~g~edsu.~t·~·~ ······ · ·· · ····· · ··· · ·· · · · ·· Table 9-21 9.34
Fig. 9·6 9.57 Use of tables ................. ....... ......... ... ..... . Par. 9-1 9.3
9-2 C4
r CHAPTER9 CABLE DATA
9-1 . Use of Tables.
a. General. For commonly used abbreviations, refer to chapter 1. For cabling diagrams, refer to TM 9-1430-380-14.
'-'1 b. Cabling Data Table Columns.
( 1) The "Cable" colunin lists the cable reference designations in numerical sequence.
( 2) The "From" column lists cable connector terminations. For example, "Pl (2) to PTS - A4A2J6" indicates
~ that plug 1, . with indexing sleeve keyed at position 2, is connected to the PTS at J6 of the test cable entry panel (A4A2).
( 3) The "To" column lists cable connector terminations. For example, "P2 (5) to 2nd stg cntr - W6J6" indicates that plug 2, with indexing sleeve keyed· at position 5, is connected to the second stage container at W6J6.
Table 9-1 • Reference Designations
Reference designation
PTS A4Al A4A2 A4A3 A4A4 A4A5
PS
Assembly
Tactical cable entry panel Test cable entry panel Power cable entry panel Communications cable entry panel Fire control cable entry panel
A22 Receptacle box (utility panel) A26 Electrical distribution center
EL Control box chassis (cQntrol unit) Al Al
AS Heating blanket junction box (guidance and warhead sections)
9.3
r Table 9-1. Reference Designations-Continued
Reference designation
A9
AlO W2
SCTS A32A4Al A32A4A2 A32A4A3 A32A4A4 None
9-4
Assembly
Heating blanket junction box (propulsion sections)
Intercommunications box (intercom box) Emergency power cable
Tactical cable entry panel Test cable entry panel PTS power cable ent,.Y panel Commur:iications cable entry panel SCTS POWER entry panel (input power)
-
n - '° u.
( {
{ (
( (
' T
able
9-2
. F
iring
Pos
ition
Cab
ling
Dat
a
Cab
le
42
W5
0
42
W5
4
60
W3
6
0W
9
60
Wl0
6
0W
ll
60
Wl2
6
0W
l6
60
Wl7
6
0W
l8
60
W2
1 (
no
te 3
) 6
0W
25
(n
ote
4)
60
W2
5 (
no
te 4
) 6
0W
32
6
0W
34
6
0W
38
(n
ote
5)
60
W4
0
60
W4
3
Fro
m
Pl
(2)
to P
S·
A2
6J2
P
1 (
3)
to E
L ·
A 1
A lJ
2
P 1
( 1
) to
CM
A •
J 6
P
l (7
) to
CM
A ·
J2
P
l (5
) to
CM
A ·
J4
P
l (4
) to
CM
A ·
JS
P
l (6
) to
CM
A ·
J3
P
l (F
) to
PS
· A
26
J5
Pl
(F)
to P
S·
A2
6Jl
Pl
(2)
to B
CC
· J
5 (
or
J7 o
r J9
) o
r R
FB ·
J 1
(n
ote
2)
Pl
(4)
to E
L·
W2
Jl
Pl
(F)
to 2
nd
stg
bla
nke
t· J
1
Pl
(F)
to 1
st s
tg b
lan
ket·
Jl
Pl
(F)
to 1
st s
tg ·
Jl
P 1
( 2
) to
CM
A ·
J 7
P
l (F
) to
EL
· A
9J3
P
l (3
) to
CM
A· Jl
Pl
(F)
to E
L·
AlO
Jl
See
foo
tnot
e a
t en
d o
f ta
ble.
To
P2
(3)
to E
L ·
AlA
lJ 1
P
2 (3
) to
PTS
·
A4
A1
Jl0
P
2 (1
) to
PS
· A
26
J6
P2
(9)
to P
TS ·
A4
A1
J8 o
r A
lA1
J5
(n
ote
1
) I
P2
( 13
) to
PTS
· A
4A
1J4
P
2 (7
) to
PTS
· A
4A 1
J5
P2
( 1
4)
to P
TS ·
A4
AlJ
3
P2
( l)
to P
TS ·
A4
A3
J2
P2
( 10
) to
PTS
· A
4A3J
1
P2
(2)
to
PTS
· A
4A
5J6
P2
(F)
to
10
-kw
gen
.
WlJ
1
P2
(F)
to
EL ·
A9J
2 P
2 (F
) to
EL
· A
9Jl
P2
(4)
to
PTS
· A
4A
1J9
P
2 ( 1
) to
PTS
· A
4A
lJ7
P
2 (F
) to
1
st s
tg .
JlO
P
2 (8
) to
PTS
·
A4
AlJ
6
P2
(F)
to h
eads
et
I ~
'\
'° °' T
able
9-2
. F
irin
g P
ositi
on C
ablin
g D
ata
-Co
nti
nu
ed
Cab
le
Fro
m
To
60
W4
4
Pl
(F)
to A
LCB
· J
l P
2 ( 1
5)
to P
TS ·
A4
A1
J2
I 6
0W
l01
G
RD
(F
) to
PS
· G
RD
G
RD
(F
) to
PTS
· A
4A
4J8
6
0W
l01
G
RD
( F
) to
EL
· g
rd p
anel
G
RD
(F
) to
P
TS ·
A4A
4J7
60
Wl0
1
GR
D (
f) t
o E
L·
grd
pan
el
GR
D (
F)
to g
rd
rod
1 6
0W
l01
G
RD
(F
) to
grd
rod
1
GR
D (
F)
to g
rd
rod
2 6
0W
l03
(n
ote
6)
Pl
(F)
to P
S·
A2
2J4
P
2 (F
) to
veh
icle
M6
56
6
0W
l05
P
l (1
) to
CM
A ·
JS
P
2 (F
) to
BC
C
· Jl
(or
J2
or
J3
) o
r r.
1 1
50
0A
. J3
(n
ote
7)
60
Wl0
8 (
no
te 3
) P
l (F
)to
M6
56
P
2 ( 1
) to
PTS
· A
4A
3J3
6
0W
l09
(n
ote
8)
Pl
( l)
to 1
0-k
w g
en
· W
2J2
P
2 (3
) to
PS
· A
26
J7
60
W1
14
(n
ote
4)
Pl
(F)
to W
S b
lan
ket·
J2
P
2 (f
) to
EL
· A
8Jl
60
Wl1
5
P 1
( f
) to
GS
bla
nke
t · Jl
P2
(f)
to
EL ·
A8
J2
Hea
dset
(f)
R
FB -
J2
Hea
dset
( F
) R
FB -
J3
H
eads
et (
F)
PTS
· A
4A
4J4
H
eads
et (
f)
PTS
· A
4A
4Jl
H
eads
et (
F)
PS
· A
26
J4
Hea
dset
(f)
A
LCB
· J
6
n S
ee f
oo
tno
te a
t en
d o
f ta
ble
. N
( (
{ {
('
(1
~
n ...,, '° .:..,
( (
{ (
(
Tab
le 9
-2.
Fir
ing
Pos
ition
Cab
ling
Da
ta-C
on
tin
ue
d
Cab
le
Air
du
ct
Hig
h-pr
essu
re
airh
ose
Not
es:
Hea
dset
(F
) H
eads
et (
F)
PS
PS
Fro
m
1.
Alte
rnat
e co
nnec
tion
for
ST
-120
in
-tra
nsi
t o
r st
andb
y he
atin
g. E
L·
AlA
1J3
6
0W
43
P2
(F)
CM
A
Cfv1
A
(
' To
2.
Alte
rnat
e co
nnec
tion
for
rem
ote
firi
ng
box
ext
erna
l us
age.
3.
C
onne
ctio
n fo
r in
-tra
nsi
t he
atin
g of
pro
gra
mm
er
test
sta
tion.
I
4.
Use
d w
hen
am
bie
nt
tem
pe
ratu
re is
-3
2°C
(-2
5°F
) o
r be
low
. 5.
U
sed
whe
n a
mb
ien
t te
mp
era
ture
is
-7
°C (
20
°f)
or
belo
w,
and
for
30
min
utes
pri
or
to s
tart
ing
pow
er I
stat
ion
at
-32
°C {
-25
°f)
or
belo
w.
6.
Use
d fo
r em
erge
ncy
star
ting
of p
ower
sta
tion.
7.
A
ltern
ate
conn
ectio
n fo
r T-
1 SO
OA
exte
rnal
usa
ge.
I 8
. S
econ
dary
usa
ge (
po
we
r st
atio
n ba
tter
y ch
arg
ing
).
~
Table 9-3. Interstage Electrical Cable Connections
From
1st stage llWlPl 11 W2P2 11W3Pl
2nd stage lOW l P l 10W2Pl 1OW3P1
Guidance section 7W l P2 7W3Pl
9-8
To
2nd stage 10W1J2 10W2J2 10W3J 2
Guidance section 8Wl9J3 8W20J 3 8W24J 2
Warhead section 4W36J8 4W l 18J2
n
ID
ID
(
Ta
ble
9-4
. F
irin
g P
osi
tion
Au
xilia
ry P
ower
Ca
blin
g D
ata,
One
Mis
sile
Ca
ble
42
W5
0 (
no
te 1
) 5
8W
l 6
0W
16
(n
ote
1)
60
W 1
7 (
no
te 1
) 6
0W
l01
(no
te1
) 6
0W
l0
1(n
ote
1)
60
W 1
01
(no
te 1
) 6
0W
l01
(no
te 1
) 6
0W
10
1
60
W 1
01
60
W 1
01
6
0W
10
9 (
no
te 3
)
No
tes:
F ro
m
Pl
(2)
to P
S·
A2
6J2
P
l (1
) to
45
-kw
gen
· J8
P
l (F
) to
PS
· A
26
J5
P
l (F
) to
PS
· A
26
J 1
GR
D (
F)
to P
TS
· A
4A
4J
8 G
RD
(F
) to
PT
S ·
A4
A4
J7
GR
D (
F)
to E
L·
grd
pa
ne
l G
RD
(F
) to
grd
ro
d 1
G
RD
(F
) to
45
-kw
ge
n·
GR
D
GR
D (
F)
to P
DB
· J
l2
GR
D (
F)
to g
rd r
od
1
Pl
(1)
to P
DB
· J
9
1.
Ca
ble
s in
sta
lled
as
pa
rt o
f n
orm
al
firi
ng
po
sit
ion
inst
alla
tio
n.
2.
Tw
o g
rou
nd
cla
mp
ass
em
blie
s a
re r
eq
uir
ed
at
this
lo
cati
on
. 3
. P
rim
ary
usa
ge (
sta
nd
by
po
we
r).
4.
Bas
ic s
ign
al
an
d w
inte
riza
tio
n c
ab
les
no
t in
clu
de
d.
To
P2
(3
) to
E
L·
AlA
lJl
P2
( 1
) to
P
DB
· J
1 5
P
2 (
1)
to
PT
S
· A
4A
3J2
P
2 ( 1
0)
to P
TS ·
A4
A3
J 1
GR
D (
F)
to P
S
· G
RD
G
RD
(F
) to
EL
·
grd
p
an
el
GR
D
(F)
to
grd
ro
d
1 G
RD
(F)
to
grd
ro
d
2 G
RD
(F
) to
grd
ro
d
1 (n
ote
2)
GR
D (
F) t
o g
rd
rod
1 G
RD
(F
) to
grd
ro
d
2 P
2 (
3)
to
PS
·
A2
6J7
I
'° . .... 0 (')
.s:i.
Ca
ble
60
W3
6
0W
9
60
Wl0
6
0W
ll
60
Wl2
6
0W
32
6
0W
34
6
0W
40
6
0W
10
1
60
Wl0
1
Air
du
ct
(no
te 1
) H
igh
-pre
ssu
re
air
ho
se (
no
te 1
)
Not
es:
Tab
le 9
-5.
Pre
para
tion
for
Sta
ndby
Cab
ling
Dat
a, O
ne M
issi
le
Fro
m
Pl
( 1)
to C
MA
· J
6
P 1
( 7 )
to C
M A
-J
2 P
1 (
5)
to C
MA
· J
4
P 1
( 4)
to C
MA
-J
5 P
l (6
) to
CM
A -
J3
P
l (F
) to
1st
stg
-JI
Pl
(2)
to C
MA
-J7
P
1 ( 3
) to
CM
A -
J 1
GR
D (
f) t
o EL
· g
rd p
an
el
(no
te 2
) G
RD
(F
) to
grd
rod
1
(no
te3
) C
MA
C
MA
To
P2
(1
) -
(no
te 1
) P
2 (9
) to
EL
-A
lA1
J5
P2
( 1
3)
-(n
ote
1)
P2
( 7
) -
(no
te 1
) P
2 (
14
) -
(no
te 1
) P
2 (
4)
·(n
ote
1)
P2
( 1
) -
(no
te 1
) P
2 (
8)
-(n
ote
1)
GR
D (f
) to
g
rd
rod
1 (n
ote
3)
GR
D (
F)
to g
rd
rod
2 (n
ote
3)
\
1.
P2
en
d n
ot
con
ne
cte
d.
Cab
les,
a
irh
ose
, a
nd
co
nd
itio
ne
d-a
ir
du
ct l
aid
ou
t to
fa
cilit
ate
la
ter
con
ne
ctio
n.
2.
Con
nect
pri
or
to c
ount
dow
n.
I 3.
N
ot
used
in s
tand
by,
but
mus
t be
in p
lace
to
fa
cilit
ate
qui
ck c
hang
e to
fir
ing
sta
tus.
('
( (
( {
( ·~
n
ID
ID
( (
Tab
le 9
-4.
Fir
ing
Po
sitio
n A
uxi
liary
Po
we
r C
ab
ling
Dat
a, O
ne M
issi
le
Ca
ble
42
W5
0 (
no
te 1
) 5
8W
l 6
0W
l6 (
no
te 1
) 6
0W
l7(n
ote
1)
60
Wl0
1 (
no
te l)
60
Wl0
1(n
ote
1)
60
W 1
01
(n
ote
l)
60
Wl0
1 (
no
te 1
) 6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l09
(no
te 3
)
No
tes:
Fro
m
Pl
(2)
to P
S·
A2
6J2
P
l (1
) to
45
-kw
ge
n.
J8
P
l (F
) to
PS
· A
26
J5
P
l (F
) to
PS
· A
26
Jl
GR
D (
F)
to P
TS
· A
4A
4J8
G
RD
(F
) to
PT
S ·
A4
A4
J7
GR
D (
F)
to E
L ·
grd
pa
ne
l G
RD
( F
) to
grd
ro
d 1
G
RD
(F
) to
45
-kw
ge
n·
GR
D
GR
D (
F)
to P
DB
· J
l2
GR
D (
F)
to g
rd r
od
1 P
l (1
) to
PD
B ·
J9
1.
Ca
ble
s in
sta
lled
as
pa
rt o
f n
orm
al
firi
ng
po
siti
on
in
sta
llati
on
. 2
. T
wo
gro
un
d c
lam
p a
sse
mb
lies
are
re
qu
ire
d a
t th
is l
oca
tio
n.
3.
Pri
ma
ry u
sag
e (
sta
nd
by
po
we
r).
4.
Ba
sic
sig
nal a
nd
win
teri
zati
on
ca
ble
s n
ot
incl
ud
ed
.
To
P2
(3)
to
EL
· A
lAlJ
l P
2 (
1)
to
PD
B ·
Jl5
P
2 ( 1
) to
P
TS
·
A4
A3
J 2
P2
( 1
0)
to P
TS
· A
4A
3J
1 G
RD
(F
) to
P
S
· G
RD
G
RD
(F
) to
E
L ·
grd
p
an
el
GR
D
(F)
to g
rd
rod
1
GR
D (
F)
to g
rd
rod
2
GR
D (
F)
to
grd
ro
d
1 (n
ote
2)
GR
D (
F) t
o g
rd
rod
1
GR
D (
F)
to g
rd
rod
2
P2
(3)
to P
S·
A2
6J7
I
( '° .... 0 ('
)
\
Ca
ble
60
W3
6
0W
9
60
Wl0
6
0W
l 1
60
Wl2
6
0W
32
6
0W
34
6
0W
40
6
0W
l01
6
0W
l01
A
ird
uct(
no
te 1
) H
igh
-pre
ssu
re
air
ho
se (
no
te 1
)
No
tes:
Ta
ble
9-5
. P
rep
ara
tion
fo
r S
tan
db
y C
ab
ling
Dat
a, O
ne M
issi
le
Fro
m
P 1
( l) t
o C
MA
· J
6
Pl
(7)
to C
MA
· J
2
Pl
(5)
to C
MA
· J
4
Pl
(4)
to C
MA
· J
5
Pl
(6)
to C
MA
· J
3
Pl
( F)
to 1
st s
tg ·
J 1
P
l (2
) to
CM
A ·
J7
P
l (3
) to
CM
A-J
l G
RD
(f)
to
EL
· g
rd p
an
el
(no
te 2
) G
RD
(F
) to
grd
ro
d
l (n
ote
3)
CM
A
CM
A
To
P2
( 1
) ·
(not
e 1
) P
2 (9
) to
EL
· A
lAlJ
5 P
2 (1
3) ·(
no
te 1
) P
2 (7
) ·(
no
te 1
) P
2 (
14
) ·
(no
te 1
) P
2 (4
) ·
(no
te 1
) P2
(l)
·(n
ote
1
) P
2 (8
) ·(
no
te 1
) G
RD
(f
) to
g
rd
rod
1
(no
te 3
) G
RD
(F
) to
grd
ro
d
2 (n
ote
3)
1.
P2
e
nd
n
ot
con
ne
cte
d.
Ca
ble
s,
air
ho
se,
an
d
con
dit
ion
ed
-air
d
uct
laid
o
ut
to
faci
lita
te l
ate
r co
nn
ect
ion.
2
. M
ust
be
co
nn
ect
ed
wh
en
ch
an
gin
g t
o fi
rin
g st
atu
s.
3.
No
t u
sed
in
sta
nd
by,
bu
t m
ust
be
in p
lace
to
faci
lita
te q
uic
k ch
ang
e t
o f
irin
g s
tatu
s.
)
I I
("')
"""
ID .... ....
Ta
ble
9-6
. Q
RA
Sta
nd
by
Ca
blin
g D
ata,
Tw
o M
issi
les
Ca
ble
F
rom
To
58
Wl
Pl
( l)
to
45
-kw
ge
n·
JS
P2
( 1
) to
PD
B
-J
15
G
OW
lOl
GR
D (
F)
to P
DB
· J
l2
GR
D (
F)
to g
rd
rod
1
(no
te
1)
GO
W 1
01
G
RD
(F
) to
grd
ro
d 1
G
RD
(F
) to
grd
ro
d
2 G
OW
10
1
GR
D (
F)
to 4
5-k
w g
en ·
GR
D
GR
D (
F)
to g
rd
rod
1
Po
sitio
n 2
G
OW
9 P
l (7
) to
CM
A ·
J2
P
2 (
9)
to E
L·
Al
AlJ
5
GO
W25
P
l (F
) to
2n
d s
tg b
lan
ket
-Jl
P2
(F)
to
E
L ·
A9
J2
GO
W25
P
l (F
) to
1st
stg
bla
nke
t -Jl
P2
(F
) to
E
L·
A9
Jl
GO
W38
P
l (F
) to
EL
· A
9J3
P
2 (F
) to
1st
stg
· J
lO (
no
te 2
) G
OW
10
l G
RD
(F
) to
PD
B ·
Jl3
G
RD
(F
) to
EL
· g
rd
pa
ne
l
GO
W 1
01
G
RD
(F
) to
EL
· grd
pan
el (
no
te 3
) G
RD
( F
) to
grd
ro
d
1 I
GO
W 1
01
G
RD
(F
) to
grd
ro
d
1 G
RD
(F
) to
grd
ro
d
2 G
OW
10
9
Pl
( 1
) to
PD
B ·
J 1
0 P
2 (3
) to
EL
· A
lAlJ
1
GO
W 1
14
P
l (F
) to
WS
bla
nke
t·
J2
P
2 (F
) to
EL
· A
8Jl
GO
W 1
15
Pl
(F)
to G
S b
lan
ket
. J
l P
2 (
F)
to
EL
-A
8J2
See
fo
otn
ote
at
en
d o
f ta
ble
.
cp ... N
(') .c::.
Ca
ble
Tab
le 9
-6.
QR
A S
tand
by C
ablin
g D
ata,
Tw
o M
issi
les-
Co
ntin
ue
d
From
Pl
(7)
to C
MA
-J2
To
P2
(9)
to E
L·
AlA
1J5
P
2 (F
) to
EL
·
A9J
2 P
2 (F
) to
EL
-
A9
Jl
Pos
ition
3
60
W9
6
0W
25
6
0W
25
6
0W
38
6
0W
10
1
60
W1
01
6
0W
10
1
60
W1
01
6
0W
l01
6
0W
l09
6
0W
l 14
6
0W
l15
Pl
(f)
to 2
nd
stg
bla
nke
t -
J 1
Pl
(F)
to 1
st s
tg b
lan
ket
-Jl
Pl
(f)
to E
L -
A9J
3 G
RD
(f)
to
EL -
grd
pan
el
GR
D (
F)
to c
on
du
cto
r sp
lice
G
RD
( f)
to
con
du
cto
r sp
lice
GR
D (
F)
to g
rd r
od
1
P2
(F)
to 1
st s
tg ·
J 1
0 (
no
te 2
) G
RD
(F
) to
co
nd
uct
or
splic
e
Not
es:
GR
D (
F)
to E
L· g
rd p
anel
(no
te 3
) P
1 ( 1
) to
PD
B -
J 1
1
Pl
(F)
to W
S b
lan
ket·
J2
P
l ( F
) to
GS
bla
nke
t· J
1
1.
Two
grou
nd c
lam
ps r
equi
red
for
grou
nd r
od 1
.
G RD
( f)
to
con
du
cto
r sp
lice
GR
D (
F)
to P
DB
· J
14
G
RD
(F
) to
grd
ro
d 2
GR
D
(f)
to g
rd r
od
1 P
2 (3
) to
EL
· A
lAlJ
l P
2 (F
) to
EL
-
A8
Jl
P2
(F)
to
EL
-A
8J2
2.
Use
d du
ring
stan
dard
or
conf
iden
ce c
ount
whe
n am
bien
t te
mpe
ratu
re is
-7°
C (
20
°F)
or b
elow
, and
fo
r 3
0 m
inut
es p
rio
r to
sta
rtin
g P
S a
t -3
2°C
(-2
5°F
) or
bel
ow.
( {'
, {
( {
{
\ I I ~
('")
~
No
tes
(Co
nti
nued
): 3
. C
onn
ect
pri
or
to c
ou
ntd
own
.
( (
Ta
ble
9-7
. Q
RA
Au
xili
ary
and
Sta
nd
by
Pow
er C
ab
ling
Dat
a, T
hre
e M
issi
les
Ca
ble
58
Wl
60
Wl0
1
60
Wl0
1 6
0W
10
1
Po
sitio
n 1
4
2W
50
6
0W
l6
60
Wl 7
6
0W
10
1
60
W 1
01
Fro
m
Pl
(1
) to
45
-kw
ge
n·
JS
GR
D (
F}
to 4
5-k
w g
en
· G
RD
G
RD
(F
) to
PD
B ·
J 1
2 G
RD
( F
) to
grd
ro
d
1
Pl
(2)
to P
S·
A2
6J2
P
l (F
} to
PS
· A
26
J5
Pl
(F)
to P
S·
A2
6Jl
GR
D (
F}
to P
TS
· A
4A
4J
8 G
RD
(F
} to
PT
S ·
A4
A4
J7
If
See
fo
otn
ote
at
en
d o
f ta
ble
. ... w
To
P2
( 1
) to
P
DB
·
J 1
5 G
RD
(F
) to
grd
ro
d
1 (n
ote
1
) G
RD
(F
) to
grd
ro
d 1
GR
D (
F)
to g
rd
rod
2
P2
(3
) to
EL
. A
lA
lJl
P2
(1)
to
PT
S ·
A
4A
3J2
P
2 (
10
) to
PTS
· A
4A
3Jl
GR
D (
F}
to P
S
· G
RD
G
RD
( F
) to
EL
. g
rd
pa
ne
l
I
\0 -.j:>. (") -"'
Tabl
e 9-
7.
QR
A A
uxili
ary
and
Sta
ndby
Pow
er C
ablin
g D
ata,
Thr
ee M
issi
les-
Con
tinue
d
Cab
le
60
Wl0
1
60
Wl0
1
60
Wl0
9
Po
siti
on
2 6
0W
l0
1
60
Wl0
1
60
Wl0
1
60
Wl0
9
Po
siti
on
3 6
0W
l01
6
0W
l01
6
0W
10
1
60
Wl
01
6
0W
l01
6
0W
l09
No
tes:
Fro
m
GR
D (
f)
to E
L-
grd
pa
ne
l (n
ote
3)
GR
D (
F)
to g
rd r
od
1
Pl
(1)
to P
DB
-J9
GR
D(F
)to
PD
B-Jl3
G
RD
(F
) to
EL
-g
rd p
an
el (n
ote
3)
GR
D (
F)
to g
rd r
od 1
P
l(l)
toP
DB
-JlO
GR
D(F
)to
PD
B-Jl4
G
RD
(F
) to
co
nd
uct
or
spli
ce
GR
D (
F)
to c
on
du
cto
r sp
lice
G
RD
(F
) to
EL
-g
rd p
an
el (
no
te 3
) G
RD
(F
) to
grd
rod
1
Pl(
l)to
PD
B-Jll
1.
Tw
o g
rou
nd
cla
mp
s re
qu
ire
d f
or
gro
un
d r
od 1
. 2.
B
as
ic s
ign
al
an
d w
inte
riza
tio
n c
ab
les
no
t in
clu
de
d.
3.
Con
ne
ct p
rio
r to
co
un
tdo
wn
.
To
GR
D (
F)
to g
rd r
od 1
G
RD
(F
) to
grd
rod
2
P2
(3
) to
PS
-A
26
J7
GR
D (
F)
to E
L -g
rd p
an
el
GR
D (
F)
tog
rd r
od I
G
RD
(F
) to
grd
rod
2
P2
(3
) to
EL
-Al A
U 1
GR
D (
F)
to c
on
du
cto
r sp
lice
G
RD
(F
) to
co
nd
uct
or
splic
e
GR
D (
F)
to E
L -g
rd p
an
el
GR
D (
F)
to g
rd r
od 1
G
RD
(F
) to
grd
rod
2
P2
(3
) to
EL
· A
lA
lJl
I I I
{ (
( (
( (
"\
n ~
Tab
le 9
-8.
Pre
pa
ratio
n f
or
Tra
vel
Cab
ling
Dat
a
Cab
le
Fro
m
To
60
W3
P
l (1
) to
CM
A ·
J6
P
2 ( 1
) -
(no
te 1
) 6
0W
9 (
no
te 2
) P
l (7
) to
CM
A -
J2
P2
(9)
to E
L·
AlA
1J5
6
0W
l0
Pl
(5)
to C
MA
-J4
P
2 (1
3)
-(n
ote
l)
60
Wll
Pl
(4)
to C
MA
-JS
P
2 (7
) -
(no
te 1
) 6
0W
l2
Pl
(6)
to C
MA
· J
3
P2
(14
) -
(no
te 1
) 6
0W
l6
Pl
(F)
to P
S·
A2
6J5
P
2 ( 1
) to
PTS
· A
4A
3J2
6
0W
l7
Pl
(F)
to P
S -
A2
6Jl
P2
( 10
) to
PTS
· A
4A
3Jl
I 6
0W
2 l
(no
te 3
) P
l (4
) to
EL
· W
2Jl
P2
(F)
to
10
-kw
gen
-
WlJ
1
60
W2
5
P 1
( F
) to
1st
stg
bla
nke
t -
J 1
P2
(F)
to E
L·
A9
Jl
60
W2
5
Pl
(F)
to 2
nd s
tg b
lan
ket
-J
1 P
2 (f
) to
EL
·
A9
J2
60
W3
2
Pl
(F)
~o 1
st s
tg -
J1
P2
(4)
-(n
ote
1
) 6
0W
34
P
l (2
) to
CM
A ·
J7
P
2 ( 1
) -
(no
te
1)
60
W4
0
Pl
(3)
to C
MA
· J
1 P
2 (8
) -
(no
te 1
) 6
0W
l08
(n
ote
3)
Pl
(F)
to v
eh
icle
M6
56
P
2 ( 1
) to
P
TS
· A
4A
3J3
6
0W
11
5
Pl
(F)
to G
S b
lan
ket
-J1
P
2 (F
) to
E
L -
A8
J2
Air
du
ct
CM
A
(No
te 1
)
'P
See
fo
otn
ote
at
end
of
tab
le.
.... C1'I
,/
'° . .... en
Cab
le
Hig
h-p
ress
ure
a
irh
ose
Not
es:
Tab
le 9
-8.
Pre
par
atio
n f
or
Tra
vel
Cab
ling
Dat
a-C
on
tin
ued
Fro
m
To
CMA
(No
te 1
)
1.
P2
end
no
t co
nnec
ted.
Cab
les,
air
ho
se,
and
con
diti
on
ed
-air
du
ct b
undl
ed
and
dres
sed
on
EL
with
tie
dow
ns
pro
vid
ed
. 2
. S
lack
of
60
W9
dre
ssed
in
to c
able
bu
nd
le o
n EL
(s
ee
no
te
1 a
bo
ve).
3
. C
onne
ctio
n fo
r in
-tra
nsi
t h
ea
ting
.
( {
{ {
( {
"\
~
ID .... .....
.
( (
(
Tab
le 9
-9.
Mis
sile
In
-Co
nta
iner
He
at
Cab
ling
Dat
a
Ca
ble
60
W2
5
60
W2
5
60
W2
5
60
W3
7
60
W3
7
60
W5
6
No
tes:
Fro
m
Pl
(F)
to G
S c
ntr
-J
14
P
l (F
) to
1st
stg
cn
tr -
Jl
P 1
( F
) to
2n
d s
tg c
ntr
-J
1
Pl
(F)
to 5
-kw
ge
n (
no
te 2
) P
1 (
F)
to 5
-kw
ge
n (
no
te 3
) P
l (7
) to
GS
cn
tr -
J4
1.
Alt
ern
ate
co
nn
ect
ion
.
To
P2
(F
) to
E
HC
B
-J4
P
2 (F
) to
int
erc
on
ne
ctin
g bo
x 1
06
07
28
6 -
J3
P
2 (F
) to
E
HC
B -
J3
or
inte
rco
nn
ect
ing
box
1
06
07
28
6 -
J4
(n
ote
1)
P2
(F)
to
EH
CB
-
Jl
P2
(F)
to i
nte
rco
nn
ect
ing
box
10
60
72
86
-J
1 P
2 (F
) to
E
HC
B
-J2
2.
Du
rin
g
in-t
ran
sit
he
ati
ng
, 5
-kw
ge
ne
rato
r is
mo
un
ted
on
tra
iler
Ml0
5,
tow
ed
by
seco
nd
stag
e/
gu
ida
nce
se
ctio
n c
on
tain
er
tru
ck.
3.
Du
rin
g
in-t
ran
sit
he
atin
g,
5-k
w
ge
ne
rato
r is
m
ou
nted
a
t re
ar
of f
irst
st
age
con
tain
er
tru
ck c
arg
o
be
d.
ID .... 00
()
Ta
ble
9-1
0.
Gu
ida
nc
e S
ectio
n In
-Co
nta
ine
r H
ea
t C
ab
ling
Dat
a
Cab
le
60
W2
5
60
W3
7
60
W5
6
Fro
m
Pl
(F)
to G
S c
nlr
· J
14
Pl
(F)
lo 5
·kw
ge
n -
J5
or
PD
B ·
J5
(se
e n
ote
) P
l (7
) to
GS
cn
tr -
J4
No
te:
Alt
ern
ate
co
nn
ect
ion
fo
r fi
rin
g s
ite i
n-c
on
tain
er
he
ati
ng.
To
P2
(F)
lo E
HC
B
· J4
P
2
(F)
lo
EH
CB
·
Jl
P2
(F
) to
EH
CB
-
J2
I
n ~
'P ... co
( {
( {
{ (
Tab
le 9
-11
. EL
Ele
ctric
al C
ircu
it T
est
Set
Cab
ling
Dat
a
Cab
le
42
W5
0
60
W2
1
60
Wl0
1
60
Wl0
1
60
W1
01
9
8W
l 9
8W
2
98
W3
60
W3
4
Not
es:
Fro
m
Pl
(2)
to P
S -
A2
6J2
P
l ( 4
) to
EL
-W
2J 1
(se
e n
ote)
G
RD
(F
) to
PS
· G
RD
G
RD
(F
) to
EL
-g
rd p
anel
G
RD
( F
) to
grd
rod
1
P 1
( F)
to e
lect
rica
I cir
cuit
test
set
-J
2 P
l (F
) to
ele
ctric
al c
ircu
it t
est
set
-J
1 R
ed t
o el
ectr
ical
cir
cuit
test
set
-D
C +
B
lack
to
elec
tric
al c
ircu
it t
est
set
-D
C -
Pl
(2)
to C
MA
· J
7
1.
Alte
rna
te g
en
era
tor
conn
ectio
n.
2.
Inst
alla
tion
for
cabl
e m
ast
and
cla
mp
rele
ase
mec
hani
sm t
est.
To
P2
(3)
to E
L -
AlA
lJ 1
P
2 (F
) to
1
0-k
w g
en
-J
1 G
RD
(F
) to
EL
• gr
d pa
nel
GR
D (
F)
to g
rd
rod
1 G
RD
( F
) to
grd
ro
d 2
P2
(3)
to
EL -
AlA
lJ2
P
2 (F
) to
EL
• A
lAlJ
4
Pl
(1)
to 6
0W
34
P2
(1)
(no
te 2
)
P2
(1)
to 9
8W
3 P
l (1
) (n
ote
2)
\ I ~
flt .OU;
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"'"''' I I I r--- --- --~·l 7feL,--i-"'-r'-'V'I I
i \ ~-------ITTl!!L..f~-+-"---t~~ll:I----"=-(~
I I ~'~~ I ::-"'"" : '::fff"~ ~CIM L----------------------~
#OflS I ,_,AIN,ltJ, T{JflNdNOl,Jt ftD.
I /MM"IOllld/Ntjl(,t1/$ (AdU.S AlTIJf-111,. "'4Nt<ILD1"' NOUl/11(/ •
I [2) .NtlKATll MAU h <tNl(TlM'
I Figure 9 -1. Cable mast cable test connections.
9-20 Cl
'° N ...
Cab
le
58
W 1
(se
e n
ote
) 6
0W
20
6
0W
20
6
0W
20
6
0W
l0
1
60
W 1
01
6
0W
10
1
Tab
le 9
-12
. H
ead
qu
arte
rs B
atte
ry C
ablin
g D
ata
Fro
m
Pl
(1)
to 4
5·k
w g
en
-JS
P
l (
1)
to P
DB
-J9
P
l (1
) to
PD
B ·
JlO
P
1 (
1)
to P
DB
-J
11
GR
D (
F)
to 4
5-k
w g
en
-G
RD
G
RD
(F
) to
PD
B -
Jl2
G
RD
(F
) to
grd
ro
d 1
To
P2
( 1
) to
P
DB
-
J 1
5 P
2 (2
) to
RTS
-
J1
5
P 2
( 2
) to
RTS
-
J 1
5 P
2 (2
) to
RT
S -
J1
5
GR
D (
F)
to
PD
B
-Jl3
G
RD
(F
) to
grd
ro
d
1 G
RD
(F
) to
grd
ro
d
2
No
te:
58W
1 i
s a
mu
ltiu
sag
e c
ab
le f
rom
mo
tor
ge
ne
rato
r ca
ble
re
els.
'° ~ ~ n
l
Cab
le
42
W5
0
43
W6
4
3W
9
43
Wl0
5
8W
l (s
ee
no
te)
58
Wl
(se
e n
ote
) 6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l 10
Tab
le 9
-13
. S
CTS
Cab
ling
Dat
a, U
sing
PS
E
Fro
m
Pl
( 2)
to F
DT
-A
2JS
P
1 (
1)
to F
DT
-A
2J 7
P
l (F
) to
FD
T -
A2
J2
Pl
(F)
to F
DT
-A
2J6
P
l (1
) to
45
-kw
gen
-JS
P
l (1
) to
45
-kw
gen
-JS
G
RD
(F
) to
45
-kw
gen
-G
RD
G
RD
(F
) to
FD
T ·
GR
D
GR
D (
F)
to 4
5-k
w g
en ·
GR
D
GR
D (
F)
to S
CTS
· A
32
A4
A4
J7
GR
D (
F)
to g
rd r
od
1 P
l (F
) to
FD
T ·
A2
J3
He
ad
set
(F)
He
ad
set
(F)
Hea
dset
( F
)
To
P2
(3)
to S
CTS
-
inp
ut
pw
r J3
P
2 ( 1
) to
SC
TS
· in
pu
t p
wr
J2
P2
(10
) to
SC
TS -
A3
2A
4A
3Jl
P2
( 1)
to S
CTS
-A
32
A4
A3
J2
P2
( 1)
to
FDT
-A
2J4
P
2 ( 1
) to
FD
T -
A2J
5
GR
D (
F)
to
SC
TS
-A
32
A4
A4
J 1
0
GR
D (
F)
to S
CTS
-
A3
2A
4A
4Jl
1
GR
D (
F)
to
SC
TS
· A
32
A4
A4
J9
GR
D (
F)
to g
rd
rod
1 G
RD
(F
) to
grd
ro
d 2
P2
( 2)
to i
np
ut
pw
r J
1 S
CTS
-A
32
A4
A4
J 1
SC
TS -
A3
2A
4A
4J2
FD
T -
A2
J16
Not
e:
58
Wl
is a
mu
ltiu
sag
e c
ab
le f
rom
mo
tor
ge
ne
rato
r ca
ble
reel
s.
{ {
{ (
{·
(
' I ~
( (
(
n T
ab
le 9
-14
. M
issi
le I
n-C
on
tain
er
Tes
t C
ab
ling
Dat
a -
Cab
le
Fro
m
To
28
W3
P
1 (
1)
to 2
nd
stg
en
tr .
W 1
J1
P2
( 1
) to
GS
cn
tr ·
Wl3
J 1
3
28
W5
P
l (
1)
to 2
nd
stg
cn
tr ·
W3
J3
P2
(1
) to
GS
cn
tr.
WllJ
ll
28
W6
P
l (1
2)
to 2
nd
stg
cn
tr ·
W2
J2
P2
(6
) to
GS
cn
tr ·
WlO
J 1
0
I 2
8W
8
Pl
(1)
to 1
st s
tg c
ntr
· W
3J
3 P
2 (
2)
to
2n
d
stg
cn
tr.
W7
J7
28
W9
P
l (1
1)
to 1
st s
tg c
ntr
· W
2J
2 P
2 (
5)
to
2nd
st
g cn
tr ·
W6
J6
I 2
8W
l0
Pl
(1)
to 1
st s
tg c
ntr
. W
lJl
P2
( 1
) to
2
nd
stg
cn
tr ·
W5
J5
60
W3
P
l (
1) t
o G
S c
ntr
· W
9J9
P
2 (
l)
to
PS
·
A2
6J
6
I 6
0W
9
Pl
(7)
to G
S c
ntr
. W
4J
4 P
2 (9
) to
PTS
· A
4A
1J8
60
W 1
0 P
l (5
) to
GS
cn
tr ·
W7
J7
P2
(13
) to
PT
S ·
A4
AlJ
4
60
Wl
l P
1 (
4)
to G
S c
ntr
-W
8J
8 P
2 (7
) to
PT
S ·
A4
A1
J5
60
Wl2
P
l (6
) to
GS
cn
tr -
W5
J5
P2
(14
) to
PT
S ·
A4A
1J3
6
0W
l6
Pl
(F)
to P
S·
A2
6J5
P
2 ( 1
) to
PTS
· A
4A
3J2
6
0W
l 7
Pl
(F)
to P
S.
A2
6Jl
P2
( 10
) to
PTS
· A
4A
3J
1 6
0W
32
P
l (F
) to
ls!
stg
cn
tr ·
W5
J5
P2
(4
) to
PT
S ·
A4
AlJ
9
60
W3
4
Pl
(2)
to G
S c
ntr
-W
6J6
P
2 (
1)
to P
TS
·
A4
A1
J7
60
W4
0
Pl
(3)
to G
S c
ntr
. W
3J3
P
2 (
8)
to P
TS
-A
4A
lJ6
6
0W
l01
GR
D (
F}
to P
S·
GR
D
GR
D (
F)
to P
TS
-A
4A
4J
11
50
W 1
0 l
GR
D (
F}
to 1
st s
tg c
nlr
-G
RD
G
RD
( F
) to
P
TS
· A
4A
4J8
IO
6
0W
10
1 G
RD
(F}
to
PT
S ·
A4
A4
J7
GR
D (
F}
to g
rd
rod
1 . N
60
W 1
01
G
RD
( F
) to
grd
rod
1
GR
D (
F)
to g
rd
rod
2 w
IO
!>)
U'I
c Ca
ble
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
W1
01
6
0W
11
1
( (
Ta
ble
9-1
5.
Fir
st S
tage
In
-Co
nta
ine
r T
est
Ca
blin
g D
ata
-Co
nti
nu
ed
Fro
m
GR
D (
F)
to P
S·
GR
D
GR
D (
F)
to P
TS ·
A4
A4
J7
GR
D (
F)
to g
rd r
od 1
GR
D (
F)
to P
TS ·
A4
A4
J8
Pl
(1)
to 1
st s
tg c
ntr
· W
lJl
He
ad
set
( F)
He
ad
set
(F)
To
GR
D (
F)
to P
TS
· A
4A
4J1
1
GR
D (
F) t
o g
rd
rod
1 G
RD
(F
) to
grd
ro
d 2
or
1st
stg
· G
RD
(s
ee
no
te)
GR
D (
F)
to 1
st s
tg c
ntr
·
GR
D
P2
( 1
) to
PS
·
A2
6J
6 P
TS ·
A4
A4
Jl
PS
· A
26
J4
No
te:
Whe
n fi
rst
stag
e is
un
de
r m
ain
ten
an
ce,
dis
con
ne
ct 6
0W
10
1 f
rom
g
rou
nd
ro
d
2 a
nd
co
nn
ect
to
g
rou
nd
on f
irst
sta
ge.
Dis
con
ne
ct a
ll ca
ble
s fr
om
co
nta
ine
r.
'° N °' n
)
Ca
ble
28
W6
2
8W
8
28
W8
2
8W
9
28
Wl0
3
2W
l0
60
Wl6
6
0W
l7
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
W1
12
'\
Tab
le 9
-16
. S
econ
d S
tage
In
-Co
nta
ine
r T
est
Cab
ling
Dat
a
Fro
m
Pl
(12
) to
2n
d s
tgcn
tr -
W2
J2
Pl
( 1)
to 2
nd
stg
cn
tr -
W3
J3
Pl
(1)
to P
TS -
A4
A2
J4
P
l ( 1
1)
to P
TS -
A4
A2
J6
Pl
( 1)
to P
TS -
A4
A2
J2
Pl
(f)
to P
TS -
A4
A4
J6
Pl
(F)
to P
S -
A2
6J5
P
l (F
) to
PS
· A
26
J 1
GR
D (
F)
to P
S·
GR
D
GR
D (
F)
to P
TS ·
A4
A4
J7
GR
D (
F)
to g
rd r
od 1
Pl
(1)
to 2
nd
stg
cn
tr -
WlJ
l H
eads
et (
F)
Hea
dset
(F
)
To
P2
(6)
to
PTS
-
A4
A2
J8
I P
2 (2
) to
P
TS
· A
4A2J
5
P2
(2)
to 2
nd
st
g cn
tr -
W7J
7 P
2 (5
) to
2n
d
stg
cntr
-W
6J6
I
P2
(1)
to 2
nd
stg
cntr
· W
5J5
P2
( F)
to P
TS -
A4
A4
J8
P2
( 1)
to P
TS
· A
4A
3J2
P
2 ( 1
0)
to P
TS
-A
4A3J
1
I G
RD
(F
) to
PTS
·
A4A
4J 1
1 G
RD
(F
) to
grd
ro
d 1
GR
D
(F)
to
grd
ro
d 2
or
2n
d
stag
e -
GR
D
(se
e n
ote)
P
2 (1
) to
P
S
-A
26
J6
PTS
-A
4A
4Jl
PS
· A
26
J4
Not
e:
Whe
n se
cond
st
age
is
un
de
r m
ain
ten
an
ce,
dis
con
ne
ct
60
Wl0
1
from
g
rou
nd
ro
d 2
and
conn
ect
to
gro
un
d o
n se
cond
sta
ge.
Dis
conn
ect
all
cabl
es f
rom
co
nta
ine
r.
( (
( {·
(1
f.
~
c (
(
n T
ab
le 9
-17
. G
uid
an
ce S
ectio
n In
-Co
nta
ine
r T
est
Ca
blin
g D
ata
-C
able
F
rom
To
28
W3
P
1 (
1)
to P
TS ·
A4
A2
J 3
P2
(1)
to G
S c
ntr
· W
l3Jl3
2
8W
5
Pl
(1)
to P
TS ·
A4
A2
J4
P2
(1
) to
GS
cn
tr ·
WllJll
28
W6
P
l (1
2)
to P
TS ·
A4
A2
J7
P2
(6)
to G
S
cntr
· W
lOJlO
I
32
Wl0
P
l (1
) to
PTS
· A
4A
4J6
P
2 (F
) to
PTS
· A
4A
4J8
6
0W
3
Pl
(1)
to G
S c
ntr
· W
9J9
P
2 (
1)
to P
S ·
A
26
J6
60
W9
P
l (7
) to
GS
cn
tr ·
W4
J4
P2
(9)
to P
TS ·
A
4A
lJ8
I 6
0W
l0
Pl
(5)
to G
S c
ntr
· W
7J7
P
2 (
13
) to
PTS
-A
4A
1J4
6
0W
ll
Pl
(4)
to G
S cn
tr ·
W8
J8
P2
(7)
to P
TS ·
A4
A1
J5
60
Wl2
P
l (6
) to
GS
cn
tr ·
W5
J5
P2
( 14
) to
PTS
· A
4A
lJ3
6
0W
l6
Pl
(F)
to P
S·
A2
6J5
P
2 ( 1
) to
PT
S ·
A4
A3
J2
60
Wl7
P
1 (
F)
to P
S ·
A2
6J
1 P
2 ( 1
0)
to P
TS ·
A4A
3J 1
6
0W
34
P
l (2
) to
GS
cn
tr ·
W6
J6
P2
(1)
to P
TS
· A
4A
lJ7
6
0W
40
P
l (3
) to
GS
cn
tr ·
W3
J3
P2
(8)
to P
TS
· A
4A
1J6
6
0W
l01
G
RD
(F
) to
PS
· G
RD
G
RD
(F
) to
PTS
·
A4
A4
Jll
60
Wl0
1
GR
D (
F)
to P
TS ·
A4
A4
J7
GR
D (
F)
to g
rd
rod
1 6
0W
l01
G
RD
(F
) to
grd
rod
1
GR
D (
F)
to g
rd
rod
2 H
ea
dse
t ( F
) P
S ·
A2
6J4
H
ea
dse
t (F
) P
TS ·
A4
A4
Jl
ID
I D
um
my
con
ne
cto
r 3
2A
4A
lP6
G
S c
ntr
· W
lJ 1
~
.....
)
'P
N
CD
n
Tab
le 9
-17
. G
uida
nce
Sec
tion
In-C
on
tain
er
Tes
t C
ablin
g D
ata
-Co
nti
nu
ed
Cab
le
Air
du
ct
Hig
h-p
ress
ure
a
irh
ose
PS
PS
Fro
m
GS
cntr
G
S cn
tr
To
Tab
le 9
-18
. A
zim
uth
Layi
ng C
ontr
ol B
ox T
est C
ablin
g D
ata
Cab
le
32
Wl0
4
2W
50
4
3W
6
43
W9
4
3W
l0
58
Wl
(se
e n
ote)
Fro
m
Pl
(F)
to S
CTS
· A
32
A4
A4
J6
Pl
(2)
to F
DT
· A
2J8
P
1 ( 1
) to
FD
T ·
A2J
7
P 1
( F
) to
FD
T ·
A2J
2
Pl
(F)
to F
DT
-A
2J6
P
l ( 1
) to
45
-kw
gen
·JS
See
fo
otn
ote
at
end
of
tabl
e.
( (
{
To
P2
(f)
to S
CTS
· A
32
A4
A4
J8
P2
(3)
to S
CTS
· i
np
ut
pw
r J3
P
2 ( 1
) to
SC
TS ·
in
pu
t p
wr
J 2
P2
( 10
) to
SC
TS ·
A3
2A
4A
3J
1 P
2 (1
) to
SC
TS
• A
32
A4
A3
J2
P2
(1)
to
FDT
• A
2J4
( {
1
{,
\ m
~
n '° N '°
( {
( {
{ (
Tab
le 9
-18
. A
zim
uth
Layi
ng C
ontr
ol B
ox T
est
Cab
ling
Da
ta-C
on
tin
ue
d
Cab
le
SS
W 1
(se
e n
ote
) 6
0W
44
6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l01
6
0W
l01
6
0W
11
0
Fro
m
Pl
(1)
to 4
5-k
w g
en -
JS
Pl
(F)
to A
LCB
· J
l G
RD
(F
) to
FD
T ·
GR
D
GR
D (
F)
to 4
5-k
w g
en -
GR
D
GR
D (
F)
to 4
5-k
w g
en ·
GR
D
GR
D (
F)
to S
CTS
• A
32
A4
A4
J7
GR
D (
F)
to g
rd r
od 1
P
l (F
) to
FD
T ·
A2J
3
Hea
dset
(F
) H
eads
et (
F)
Hea
dset
(F
) H
eads
et (
F)
To
P2
( 1)
to
FDT
· A
2J 5
P
2 (1
5)
to S
CTS
· A
32
A4
A1
J2
GR
D (
F)
to S
CTS
· A
32A
4A4J
11
GR
D (
F)
to S
CTS
· A
32A
4A4J
10
G
RD
(f)
to
SC
TS ·
A3
2A
4A
4J9
G
RD
(F
) to
grd
ro
d 1
GR
D (
F)
to g
rd
rod
2 P
2 (2
) to
SC
TS ·
in
pu
t pw
r Jl
FDT
• A
2J 1
6
SC
TS •
A3
2A
4A
4J
1 S
CTS
· A
32
A4
A4
J2
ALC
B ·
J6
Not
e:
58
Wl
is a
mul
tiusa
ge c
able
fro
m m
oto
r g
en
era
tor
cabl
e re
els.
' I ~
ID
w ...
{
Tab
le 9
-19
. M
issi
le I
n-C
on
tain
er
Te
st C
ab
ling
Dat
a, U
sing
PS
E-C
on
tin
ue
d
Cab
le
60
W3
4
60
W4
0
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl
10
A
ir d
uct
A
ir d
uct
H
igh
-pre
ssu
re
air
ho
se
Fro
m
Pl
(2)
to G
S c
ntr
· W
6J6
P
l (3
) to
GS
cn
tr ·
W3
J3
GR
D (
F)
to 1
st
stg
cntr
· W
6J6
G
RD
(F
) to
FD
T ·
GR
D
GR
D (
F)
to 4
5-k
w g
en
· G
RD
G
RD
(F
) to
45
-kw
ge
n·
GR
D
GR
D (
F)
to S
CTS
· A
32
A4
A4
J7
GR
D (
F)
to g
rd r
od 1
D
um
my
con
ne
cto
r 3
2A
4A
lP6
H
ea
dse
t (F
) H
ea
dse
t (F
) H
ead
set
( F)
Pl
(F)
to F
DT
· A
2J3
FD
T FD
T FD
T
To
P2
(1
) to
SC
TS ·
A
32
A4
AlJ
7
P2
(8)
to S
CTS
·
A3
2A
4A
lJ6
G
RD
(F
) to
SC
TS
· A
32
A4
A4
J8
GR
D (
F)
to S
CTS
· A
32
A4
A4
Jll
GR
D (
F)
to S
CTS
·
A3
2A
4A
4J
10
G
RD
(F
) to
SC
TS
· A
32
A4
A4
J9
GR
D (
F)
to g
rd
rod
1 G
RD
( F
) to
grd
ro
d 2
GS
cn
tr ·
WlJ
l FD
T ·
A2
Jl6
S
CTS
· A
32
A4
A4
J 1
SC
TS ·
A3
2A
4A
4J2
P
2 (2
) to
SC
TS ·
inp
ut
pw
r Jl
GS
cn
tr
GS
cn
tr
GS
cn
tr
Not
e:
58
Wl
is a
mu
ltiu
sag
e c
ab
le f
rom
mo
tor
ge
ne
rato
r ca
ble
ree
ls.
\ '°
Tab
le 9
-20
. F
irst
Sta
ge I
n-C
on
tain
er
Tes
t C
ablin
g D
ata,
Usi
ng P
SE
w
N
Cab
le
Fro
m
To
2SW
S
Pl
(1)
to 1
st s
tg c
ntr
• W
3J3
P
2 (2
) to
SC
TS ·
A3
2A
4A
2J5
I
2SW
9 P
l (
11
) to
1st
stg
cn
tr •
W2
J2
P2
( 5)
to
SC
TS ·
A3
2A
4A
2Jl
4
2W
50
P
l (2
) to
FD
T •
A2J
S
P2
(3)
to S
CTS
·
inp
ut
pw
r J3
4
3W
6
P 1
(1
) to
FD
T ·
A2J
7
P2
(1)
to S
CTS
·
inp
ut
pw
r J2
I 4
3W
9
Pl
(F)
to F
DT
· A
2J 2
P
2 ( 1
0)
to S
CTS
· A
32
A4
A3
J 1
43
W1
0
Pl
(F)
to F
OT
· A
2J6
P
2 ( 1
) to
SC
TS •
A3
2A
4A
3J
2 5S
W 1
(n
ote
1)
Pl
( 1)
to 4
5-k
w g
en ·
JS
P
2 ( 1
) to
FD
T •
A2
J4
5SW
1 (
no
te 1
) P
l (1
) to
45
-kw
ge
n·
JS
P2
( 1)
to
FDT
· A
2J 5
6
0W
32
P
l (F
) to
1st
stg
cn
tr ·
W5
J5
P2
(4)
to
SC
TS ·
A3
2A
4A
1J9
6
0W
l01
G
RD
(F
) to
45
-kw
gen
· G
RD
S
CTS
· A
3 2A
4A4J
10
6
0W
l01
G
RD
(F
) to
45
-kw
ge
n·
GR
D
SC
TS ·
A3
2A
4A
4J9
6
0W
l01
G
RD
(F
) to
1st
stg
cn
tr ·
GR
D
GR
D (
F)
to
SC
TS ·
A3
2A
4A
4JS
6
0W
l01
G
RD
(F
) to
SC
TS ·
A3
2A
4A
4J7
G
RD
(F
) to
grd
ro
d 1
60
Wl0
1
GR
D (
f) t
o g
rd r
od
1 G
RD
(f)
to
grd
ro
d 2
or
1st
stg
(n
ote
2
) 6
0W
l01
G
RD
(f)
to
SC
TS •
A3
2A
4A
4J
11
GR
D (
f) t
o FD
T ·
GR
D
60
Wl 1
0
Pl
(F)
to F
OT
· A
2J 3
P
2 (
2)
to S
CTS
· i
np
ut
pw
r J
1
See
fo
otn
ote
at
end
of t
able
. n -
") {
{ (•
{
()
{,
/
IO
w
w
(
Ta
ble
9-2
0.
Firs
t S
tage
In
-Co
nta
ine
r T
est
Cab
ling
Dat
a, U
sin
g P
SE
-C
ontin
ued
Ca
ble
60
W 1
11
No
tes:
Fro
m
Pl
(1)
to 1
st s
tg c
ntr
-W
lJl
He
ad
set
(F)
He
ad
set
(F}
He
ad
set
( F)
L 5
8W
l is
a m
ult
iusa
ge
ca
ble
fro
m m
oto
r g
en
era
tor
cab
le r
eels
.
To
P2
( 1)
to
FD
T -
A2J
1
FDT
-A
2J 1
6
SC
TS
-A
32
A4
A4
J 1
SC
TS
-A
32
A4
A4
J 2
2.
Whe
n f i
rst
stag
e is
to
un
de
rgo
ma
inte
na
nce
, d
isco
nn
ect
60
Wl0
1
fro
m
gro
un
d
rod
2 an
d co
nn
ect
to
GR
D
on f
irst
sta
ge.
\ '° w
T
able
9-2
1.
Sec
ond
Sta
ge I
n-C
on
tain
er
Tes
t C
ablin
g D
ata,
Usi
ng P
SE
~
Cab
le
Fro
m
To
28
W6
P
l (1
2)
to 2
nd
stg
cn
tr ·
W2
J2
P2
(6)
to
SC
TS ·
A3
2A
4A
2J8
I
28
W8
P
l (l)
to
2n
d s
tg c
ntr
· W
3J3
P
2 (2
) to
S
CTS
· A
32
A4
A2
J5
28
W8
P
l (1
) to
SC
TS ·
A3
2A
4A
2J4
P
2 (2
) to
2nd
st
g cn
tr •
W7J
7 2
8W
9
Pl
( 11
) to
SC
TS ·
A3
2A
4A
2J6
P
2(5
)to
2n
d
stg
cntr
· W
6J6
I 2
8W
l0
Pl
( 1)
to S
CTS
· A
32
A4
A2
J2
P2
(1)
to 2
nd
stg
cntr
· W
5J 5
3
2W
l0
Pl
(F)
to S
CTS
· A
32
A4
A4
J6
P2
(F)
to S
CTS
· A
32
A4
A4
J8
42
W5
0
Pl
(2)
to F
DT
· A
2J8
P
2 (3
) to
SC
TS
· in
pu
t po
wer
J3
4
3W
6
P 1
( 1
) to
FD
T ·
A2J
7
P2
( 1)
to S
CTS
· i
np
ut
pw
r J2
4
3W
9
Pl
(F)
to F
DT
· A
2J2
P
2 ( 1
0)
to S
CTS
· A
32
A4
A3
J 1
I 4
3W
l0
Pl
(F)
to F
DT
· A
2J6
P
2 ( 1
) to
SC
TS ·
A3
2A
4A
3J
2 5
8W
l (n
ote
1)
Pl
( 1)
to 4
5-k
w g
en ·
JS
P
2 ( 1
) to
FD
T ·
A2
J4
58
Wl
(no
te 1
) P
l ( 1
) to
45
-kw
ge
n·
J8
P2
( 1)
to
FDT
· A
2J 5
6
0W
l01
G
RD
( F
) to
FD
T ·
GR
D
G R
D (
F)
to S
CTS
· A
3 2A
4A4J
11
60
Wl0
1
GR
D (
F)
to 4
5-k
w g
en ·
GR
D
GR
D (
F)
to
SC
TS
· A
32
A4
A4
J9
60
Wl0
1
GR
D (
f) t
o 4
5-k
w g
en ·
GR
D
GR
D (
F)
to
SC
TS ·
A3
2A
4A
4Jl0
6
0W
l01
G
RD
( F
) to
SC
TS •
A3
2A
4A
4J
7 G
RD
(F
) to
grd
ro
d 1
See
fo
otn
ote
at
end
of t
able
. n -
') {
{ {
{ {I
{I
~
ID w
U1
( (
(
Ta
ble
9-2
1.
Sec
ond
Sta
ge I
n-C
on
tain
er
Tes
t C
ab
ling
Dat
a, U
sin
g P
SE
-Co
nti
nu
ed
Ca
ble
60
Wl0
1
60
Wl 1
0
60
Wl 1
2
Not
es:
Fro
m
GR
D (
F)
to g
rd r
od 1
H
ead
set
( F)
He
ad
set
(F)
He
ad
set
(F)
Pl
(F)
to F
DT
· A
2J3
P
l (1
) to
2nd
stg
cntr
-W
lJl
1.
58
W 1
is
a m
ult
iusa
ge
ca
ble
fro
m m
oto
r g
en
era
tor
cab
le r
eels
.
To
GR
D
(F)
to
grd
ro
d 2
or
2n
d
stg
(no
te 2
) F
DT
-A
2J 1
6
SC
TS -
A3
2A
4A
4J
1 S
CTS
-A
32
A4
A4
J2
P2
( 2
) to
SC
TS
-in
pu
t p
wr
J 1
P2
( 1
) to
F
DT
-
A2J
1
2.
Wh
en
se
cond
st
age
is t
o u
nd
erg
o m
ain
ten
an
ce,
dis
con
ne
ct 6
0W
l01
from
g
rou
nd
ro
d
2 an
d co
nn
ect
to
g
rou
nd
on
seco
nd
sta
ge.
ID
Tab
le 9
-22
. G
uid
ance
Sec
tion
In
-Co
nta
iner
Tes
t C
ablin
g D
ata,
Usi
ng
PS
E
w
al
Ca
ble
F
rom
To
28
W3
P
l (1
) to
SC
TS ·
A3
2A
4A
2J3
P
2 (
1)
to G
S
cntr
· W
l3Jl3
2
8W
5
Pl
(1)
to S
CT
S ·
A3
2A
4A
2J4
P
2 (
1)
to G
S
cntr
· W
llJll
I 2
8W
6
Pl
( 1
2)
to S
CT
S ·
A3
2A
4A
2Ji
P2
(6
) to
GS
cn
tr ·
WlO
J 1
0
32
W1
0
Pl
(F)
to S
CTS
· A
32
A4
A4
J6
P
2 (
F)
to S
CTS
·
A3
2A
4A
4J8
4
2W
50
P
l (2
) to
FD
T ·
A2
J8
P2
(3
) to
SC
TS
·
inp
ut
pw
r J
3 4
3W
6
Pl
( l)
to
FD
T ·
A2
J7
P2
( 1
) to
SC
TS
·
inp
ut
pw
r J2
I
43
W9
P
l (F
) to
FD
T ·
A2
J2
P
2 (
10
) to
SC
TS
·
A3
2A
4A
3J
1 4
3W
l0
Pl
(F)
to F
DT
· A
2J6
P
2 (
1)
to S
CTS
·
A3
2A
4A
3J
2 5
8W
1 (
see
no
te)
Pl
(1)
to 4
5-k
w g
en
. J8
P
2
(1)
to
FD
T
· A
2J4
5
8W
1 (
see
no
te)
Pl
( 1
) to
45
-kw
ge
n.
J8
P
2
(1)
to
FD
T
· A
2J5
6
0W
3
Pl
(1)
to G
S c
ntr
· W
9J9
P
2 (
1)
to
FD
T
· A
2J 1
6
0W
9
Pl
(7)
to G
S c
ntr
· W
4J4
P
2 (9
) to
SC
TS ·
A3
2A
4A
lJ8
I 6
0W
l0
Pl
(5)
to G
S c
ntr
. W
7J7
P
2 (
13
) to
SC
TS ·
A3
2A
4A
1J4
6
0W
l 1
Pl
(4)
to G
S c
ntr
. W
8J8
P
2 (7
) to
SC
TS ·
A3
2A
4A
1J5
6
0W
l2
Pl
(6)
to G
S c
ntr
. W
5J5
P
2 ( 1
4)
to S
CT
S ·
A3
2A
4A
1J3
60
W3
4
Pl
(2)
to G
S c
ntr
· W
6J6
P
2 (
1)
to
SCTS
·
A3
2A
4A
lJ7
60
W4
0
Pl
(3)
to G
S c
ntr
· W
3J3
P
2 (8
) to
S
CTS
·
A3
2A
4A
1J6
n S
ee f
oo
tno
te a
t e
nd
of
tab
le.
IO
' w
....,
(
Ta
ble
9-2
2.
Gui
danc
e S
ectio
n In
-Co
nta
ine
r T
est
Cab
ling
Dat
a, U
sing
PS
E-C
on
tinu
ed
Cab
le
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
Wl0
1
60
W1
10
Air
du
ct
Air
du
ct
Hig
h-p
ress
ure
a
irh
ose
Fro
m
GR
D (
F)
to F
DT
· G
ND
G
RD
(F
) to
45
-kw
ge
n·
GR
D
GR
D (
F)
to 4
5-k
w g
en·
GR
D
GR
D (
F)
to S
CTS
-A
32
A4
A4
J7
GR
D (
F)
to g
rd r
od
1 P
l(F
) to
FD
T -
A2
J3
Du
mm
y co
nn
ect
or
32
A4
AlP
6
Hea
dse
t ( F
) H
ead
set
(F)
Hea
dse
t (F
) FD
T ·F
DT
FDT
To
GR
D (
F)
to·S
CTS
· A
32
A4
A4
Jll
GR
D (
F)
to S
CTS
·
A3
2A
4A
4Jl0
G
RD
(F
) to
SC
TS ·
A3
2A
4A
4J9
G
RD
(F
) to
grd
ro
d 1
GR
D (
F)
to g
rd
rod
2 P
2 (2
) to
SC
TS
-in
pu
t p
wr
J 1
GS
cn
tr -
W lJ
1
FD
T ·
A2
J 1
6
SC
TS -
A3
2A
4A
4J
1 S
CTS
-A
32
A4
A4
J2
GS
cn
tr
GS
cn
tr
GS
cn
tr
Not
e:
58
W 1
is
a m
ulti
usag
e ca
ble
fro
m m
oto
r g
en
era
tor
cab
le r
eels
.
'° w
00
')
Cab
le
32
Wl0
4
2W
l 4
2W
2
42
W3
4
2W
4
42
W5
4
2W
6
42
W7
4
2W
8
42
W9
4
2W
l0
42
Wl8
6
0W
l01
6
0W
l01
Air
in
let
H ig
h-p
ress
u re
a
irh
ose
(l
Tab
le 9
-23
. G
uida
nce
Sec
tion
In-V
an C
ablin
g D
ata
Fro
m
Pl
to S
CTS
-A
32
A4
A4
J6
Pl
to S
CTS
pne
u te
st c
onso
le -
J56
P
l to
SC
TS p
neu
test
con
sole
-J5
7
Pl
to S
CTS
pne
u te
st c
onso
le -
J58
P
l to
SC
TS p
neu
test
con
sole
-J5
9
Pl
to S
CTS
pne
u te
st c
onso
le -
J6
0
Pl
to S
CTS
pne
u te
st c
onso
le -
J6
2
Pl
to S
CTS
pne
u te
st c
onso
le -
J61
P
l to
SC
TS p
neu
test
con
sole
-J6
3
Pl
to S
CTS
pne
u te
st c
onso
le -
J6
4
Pl
to S
CTS
pne
u te
st c
onso
le -
J65
P
l to
SC
TS p
neu
test
con
sole
-J
13
5
GR
D (
F)
to S
CTS
-A
32
A4
A4
J7
GR
D (
F)
to g
rd r
od 1
D
umm
y co
nnec
tor
11
03
54
69
G
S b
low
er
SC
TS p
neu
test
con
sole
{ (;
To
P2
to S
CTS
-A
32
A4
A4
J8
P2
to G
S -
WlJ
l P
2 to
GS
-W
2J2
P
2 to
GS
-W
3J3
P
2 to
GS
-W
4J4
P
2 to
GS
-W
5J5
P
4 to
GS
-W
6J6
P
2 to
GS
-
W7J
7 P
2 to
GS
-W
l9J3
P
2 to
GS
-W
20
J2
P2
to G
S -
W2
4J2
P
2 to
GS
blo
wer
G
RD
(F
) to
grd
ro
d 1
GR
D (
F)
to g
rd
rod
2 G
S-
7W
lP2
G
S
GS
( (
\
( ~
IO
w
IO
PR
E5
5U
RE
T
E.S
T .
$E
T
9S
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MP
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CH
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MP
T:
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I I I I I I I I I I I I
__
__
__
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_J FSNB·~B
Fig
ure
9-2
. G
uid
an
ce s
ectio
n p
ress
ure
tes
t.
'° ,i. 0
{\
PN
EU
MA
TIC
T
ES
T
CO
NS
Qi.£
CO
NN
EC
TOR
P
AN
Ei.
'5A
2
.15
1
Pl
./2
W2
P
2
Nlt
:H·P
RE
SS
tlR
E
AIR
HO
SE
10
51"4
'~~"
I
Hl&
H-P
RE
.SS
tlHE
A
IR C
dtP
LIA
/$
D
BA
TT
ER
Y
NO
TE
:
IZl
IND
ICA
TE
S M
AI.
£ C
ON
NE
roR
.
AC
CE
SS
D
OO
R
&ii
/DA
NC
E S
CC
TIO
N 8
(I
N
TE
.ST
00
1.l
.Y)
uiiB
1Lici
i coNA
.iecnoZ
l W
U2
l
-----------'
A Il
l HO
SE
1
10
27
46
1
TO
.AIR
B
OTT
LE
---i1
WP
UT
I
r7;;P
llrc"
RO"s
s
FILT
ER
i
P!?C~JllRE
SW
ITC
H
"
l I
L-------
__
__
.....J
Fig
ure
9-3
. P
ress
ure
sw
itch
test
set
up.
(r
{.:
{ {
TO
UM
BIL
ICA
i.
FS
NB
·f5
(
\ ~
-
PNEUMATIC TESTCQV~E C-QNNECTOR PANEL 95;12
Pt PZ 4ZN9
4ZWZ
42Wt;
:::~::~~~'::£~===H==l~=H=·=P,=~=ES.=SV.==~=E===t=1
PNEllM.4TIC TEST CH.45515 !15A2.42
NOT£
All? HOSE 1057<:>4611
12'.'.J 1NPIC.4rl'S M.4LE C<WM"CTO-"
6(.1/0ANCC SEcrtON tJ (IN TEST POLLY) ~ESivJie - - --,
~:ECTION I I
-l I I I I
____ _ J
TOST-120
FSN8·f6
Figure 9-4. Air pressure test setup.
9-41
1r----1' -- -,
::()~~: 11 ~~I 1 I ~ I 11 I ~~I 11 I . ! I
i li:1 ~ : 1 I~ I 11!?.___ I ____ __J
r------1
9.42
Table 9-24. Connector Pin Number-to-Letter Cross-Reference
No. Letter No. Letter No. Letter
1 A 22 y 42 .Y 2 B 23 z 43 ~ 3 c 24 a 44 w 4 D 25 b 45 ~ 5 E 26 c 46 y 6 F 27 d 47 z 7 G 28 e 48 AA 8 H 29 f 49 BB 9 J 30 g 50 cc
10 K 31 h 51 DD 11 L 32 i 52 EE 12 M 33 k 53 FF 13 N 34 54 GG 14 p 35 m 55 HH 15 R 36 n 56 JJ 16 s 37 p 57 KK 17 T 38 q 58 LL 18 u 39 r 59 MM 19 v 40 ~ 60 NN 20 w 41 t 61 pp 21 x
Table 9-25. Cable Transport or Storage Area Data
Item
42W50
42W54
60W3 'W 60W9
60Wl0
Transport or storage area
Firing Position Power Distribution Set
Coiled in forward cargo area of PTS/PS vehicle
Coiled in forward cargo area of PTS/PS vehicle
In bundle on EL In bundle on EL In bundle on EL
9.43
Table 9-25. Cable Transport or Storage Area Data- Continued
Item Transport or storage area
Firing Position Power Distribution Set-Continued
60Wl 1 60Wl2 60W16
60Wl7
60W21
60W25
60W32 60W34 60W38 60W40 60W43 60W44 60Wl01
60Wl03
60Wl05
60W l09 60Wl 14
60W 115
Conditionedair duct
High -pressure airhose
Ground rod Ground clamp Power distri-
bution box
I Cable reel assembly
9-44
In bund le on EL In bundle on EL Connected between PTS and PS on PTS/
PS vehicle Connected between PTS and PS on PTS/
PS vehicle Connected from tractor XM 7 5 7 to EL
for missile transit; stored on XM7 57 Coiled on auxiliary eq uipmen t vehicle;
winterized operation . operating posi· tion on EL
In bundle on EL In bundle on EL Coi led on auxiliary equipment vehicle In bundle on EL On auxiliary equipment vehicle On auxi liary equipment vehicle Four co iled in forward cargo area of
PTS/ PS vehicle; three coi led onauxil ia ry equipment vehicle
Coiled in forward cargo area of PTS/PS vehic le
On reel stowed on auxiliary equipment vehicle
On auxiliary equipment vehicle Normal ope ration · coiled on auxiliary
equipment vehicle; winterized operation · connected to warhead section blanket on EL
Normal operation · connected to gu id· a nee section blanket on EL
In bundle on EL
In bundle on EL
Auxiliary equipment vehicle Auxiliary equipment veh icle Auxiliary equipment vehicle
Auxiliary equipment vehicle
C2
Table 9-25. Cable Transport or Storage Area Data-Continued
Item Transport or storage area
EL/ Missile Auxiliary Power Distribution Set
60W3 60W9 60W10 60Wll 60W12 60W21
60W25
60W32 60W34 60W38 60W40 60W101 60Wl09 60W114
60W115
High pressure airhose
Conditioned-air duct
Ground clamp Ground rod Conductor
splice
28W3
28W5
28W6
C2
In bundle on EL In bundle on EL In bundle on EL In bundle on EL In bundle on EL Connected from tractor XM757 to EL
for missile transit; stored on XM757 Coiled on auxiliary equipment vehicle;
winterized operation · operating position on EL
In bundle on EL In bundle on EL Coiled: on auxiliary equipment vehicle In bundle on EL Four coiled on auxiliary equipment vehicle I On auxiliary equipment vehicle Normal operation ·coiled in auxiliary
equipment vehicle; winterized operation • connected to warhead section blanket on EL
Normal operation · connected to guidance section blanket on EL
In bundle on EL
In bundle on EL
Auxiliary equipment vehicle Auxiliary equipment vehicle Auxiliary equipment vehicle
Forward Area Test Cable Set
Coiled in front of parts shelter on firing battery maintenance vehicle
Coiled in front of parts shelter on firing battery maintenance vehicle
Coiled in front of parts shelter on firing battery maintenance vehicle
9.45
Table 9-25. Cable Transport or Storage Area Data-Continued
Item Transport or storage area
Forward Area Test Cable Set-Continued
28W8
28W9
28W10
60Wl01
60Wlll
60W112
Coiled in front of parts shelter on firing battery maintenance vehicle
Coiled in front of parts shelter on firing '-" battery maintenance vehicle
Coiled in front of parts shelter on firing battery maintenance vehicle
Coiled in front of parts shelter on firing battery maintenance vehicle
Coiled in front of parts shelter on firing .._,,. battery maintenance vehicle
Coiled in front of parts shelter on firing battery maintenance vehicle
Guidance Section In-Container Heat Set
60W25
60W37
60W56
Electrical heating con· trol box
60W25
60W37
60W56
9-46
Connected on guidance section container truck
Connected on guidance section container truck
Connected on guidance section container truck
Guidance section container truck
Missile In-Container Heat Set
In connected position: two on second stage/guidance section container truck; '9.1 one on first stage container truck
In connected position: one each on first stage container truck and second stage/ guidance section container truck
In connected position: on second stage/ guidance section container truck '9.1
Table 9-25. Cable Transport or Storage Area Data-Continued
Item Transport or storage area
Missile In-Container Heat Set-Continued
Electrica I On second stage/ guidance section con· heating con- tainer truck trol box
Interconnecting On first stage container truck box
60W20 60Wl01 Power distri·
bution box Ground rod Ground clamp
assembly
28W3 28W5 28W6 28W8
28W9 28Wl0 42W50
43W6 43W9 43Wl0 60W3 60W9 60Wl0 60Wl 1 60Wl2 60W32 60W34
Headquarters Battery Cable Set
On AN/ TRC-80 transport truck M656 On 45-kw generator towing vehicle On 4 5-kw generator towing vehicle
On 45-kw generator towing vehicle On 45-kw generator towing vehicle
Direct Support Cable Set
Cable 1, reel 1, on cable reel Cable 2, reel 1, on cable reel
trailer trailer
Cable 3, reel l, on cable reel trailer Cables 1 and 2, reel 2, on cable reel
trailer Cable 3, reel 2, on cable reel trailer Cable 4, reel 2, on cable reel trailer Cable l, reel 8, and cable 3, reel 4,
on cable reel trailer Cable 1, reel 7, on cable reel trailer Cable 2, reel 7, on cable reel trailer Cable 2, reel 8, on cable reel trailer Cable 1, reel 4, on cable reel trailer Cable 3, reel 7, on cable reel trailer Cable 1, reel 6, on cable reel trailer Cable 2, reel 6, on cable reel trailer Cable 3, reel 6, on cable reel trailer Cable 1, reel 3, on cable reel trailer Cable 2, reel 3, on cable reel trailer
9-47
Table 9-25. Cable Transport or Storage Area Data-Continued
Item Transport or storage area
Direct Support Cable Set-Continued
60W40 Cable 3, reel 3, on cable reel trailer 60W44 Cable 2, reel 4, on cable reel trailer 60Wl01 Cables 1 th ru 7, on reel 9, cab le reel
trailer 60Wl 10 Cable 3, reel 8, on cable reel trailer 60Wl 11 Cable 1, reel 5, on cable reel trailer 60Wll2 Cable 2, reel 5, on cable reel trailer
I Ground clamp On ca ble reel trailer Ground rods
I
-
22A35W l 22A35W2 22A35W3 22A35W4 22A35W5 22A35W6 22A35W7 22A35W8 25Wl 25W3 25W4 25W5 25W6 25W7 25W8 25W9 25Wl0 25Wl 1 25Wl3 25Wl4 26Wl 26W2 26W3 26W5 26W6 26W7 26W9
9-48
On ca ble reel trailer
Other Interconnecting and Test Cables
Part of ca ble mast assembly Part of cable mast assembly Part of cable mast assembly Part of cable mast assembly Part of cable mast assembly Part of cable mast assembly Part of cable mast assembly Part of cable mast assembly Part of guidan ce section container Part of guidance section conta in er Part of guidan ce section container Part of guidance section container Part of guida nce section container Part of guidance section container Part of guidance section container Part of guidan ce section container Part of guida nce section container Pa rt of guidance section container Part of guidance section container Part of guidance section container Pa rt of second stage container Part of second stage con tainer Pa rt of second stage container Part of second sta ge con tainer Part of second stage container Pa rt of second stage container Pa rt of second stage container
Cl
Table 9-25. Cable Transport or Storage Area Data- Continued
Item Transport or storage area
Other Interconnecting and Test Cables - Continued I 27Wl 27W2 27W3 27W5 27W6 32W10 42Wl 42W2 42W3 42W4 42W5 42W6 42W7 42W8 42W9 42W10 42W13 42Wl4 58Wl 60W l 8 60W108
69Wl 69W3 76W3
98Wl 98W2 98W3
Cl
Part of first stage container Part of first stage container Part of first stage container Part of first stage container Part of first stage conta iner In PTS storage cabinet Forward sto rage area of SCTS Forward storage area of SCTS Forwa rd storage ar ea of SCTS Forward storage area of SCTS Forward storage area of SCTS Forward storage area of SCTS Forward storage area of SCTS Forward storage area of SCTS Forward storage area of SCTS Forward .storage area of SCTS Forward storage area of SCTS Forward storage area of SCTS On reel on motor generator trailer On reel in PTS Connected between PTS and vehicle power
system on PTS / PS vehicle Shop sets Mechanica l shop set In firing position tool kit carried on aux-
iliary equipment vehicle On auxiliary equipment vehicle On auxiliary equipment vehicle On auxi liary equipment vehicle
9-49
9·50
Table 9-26. RFI Cables
Reference designation
42W54 60W9 60W10 60Wll 60W12 60W18 60W32 60W34 60W40 60W44 60W105
Reference No.
11039299-9 11039300-9 11039301-9 11039302-9 11039303-9 11039304-9 11039305-9 11039306-9 11039307-9 11039308-9 11039221-49
C4
( {
{ {
( (
~
(")
Tab
le 9
-27.
C
able
Dat
a I
~
Cab
le
I R
efer
ence
No.
Le
ngth
(ft
.)
Num
ber
of
cond
ucto
rs
22A
35W
l 11
0393
14
17.5
8 60
22
A35
W2
1103
9310
17
.75
60
22A
35W
3 11
0393
13
17.2
5 60
22
A35
W4
1103
9311
17
.25
60
22A
35W
5 11
0393
12
17.0
60
22
A35
W6
1057
4079
18
.0
6 (b
ranc
hed)
' 22
A35
W7
1103
9315
21
.67
60 (
bran
ched
)' 22
A35
W8
1103
9316
18
.17
16
25W
l 10
6251
75
5.0
60
25W
3 10
6251
76
10.6
60
25
W4
1062
5177
13
.0
60
25W
5 10
6251
78
11.2
5 60
25
W6
1062
5179
14
.0
60
25W
7 10
6251
80
13.7
60
25
W8
1062
5181
11
.7
60
25W
9 10
6251
82
13.4
6
25W
10
1102
5978
9.
4 60
See
fo
otn
ote
at e
nd o
f tab
le.
'° Ui -~
'° T
able
9-2
7. C
able
Da
ta-C
on
tinu
ed
I\
u.. N
Cab
le
Ref
eren
ce N
o.
Leng
th (
ft.)
N
umbe
r o
f co
nduc
tors
25
Wll
11
0255
66
9.7
38
25W
13
1062
5186
9.
8 6
25W
14
1057
4740
9.
2 4
(bra
nche
d)1
26W
l 10
6251
87
15.8
6
26W
2 11
0259
79
16.7
60
26
W3
1102
5568
17
.9
38
26W
5 11
0261
64
12.0
5
26W
6 11
0261
65
12.0
54
26
W7
1102
6166
12
.0
25
26W
9 10
6458
40
3.33
1
27W
l 11
0261
67
16.0
5
27W
2 11
0261
68
14.6
54
27
W3
1102
6169
16
.0
25
27W
5 10
6251
99
12.2
5 60
27
W6
1057
8255
13
.0
1 28
W3
1103
9273
25
6
28W
5 11
0392
74
25
54
See
fo
otn
ote
at
end
of
tab
le.
0 ~
(,
{r
(1
( (
( ~
( {
( {
( (
~
(')
~
Tab
le 9
-27.
Cab
le D
ata
-Co
ntin
ue
d
I C
able
I
Ref
eren
ce N
o.
Leng
th (
ft.)
N
umbe
r o
f co
nduc
tors
28W
6 11
0392
75
25
60
28W
8 11
0392
76
25
54
28W
9 11
0392
77
25
60
28W
10
1103
9278
25
5
32W
10
1105
1227
2.
6 1
42W
l 10
5763
22
12
60
42W
2 10
5763
23
12
60
42W
3 10
5763
24
12
60
42W
4 10
5763
25
12
60
42W
5 10
5763
26
12
60
42W
6 10
5763
27
12
6 42
W7
1057
6328
12
60
42
W8
1102
5752
12
38
42
W9
1102
5815
12
60
42
W10
10
5763
31
12
6 42
W13
11
0284
96
3 60
(br
anch
ed)1
42W
14
1102
8978
4.
5 4
U>
S
ee f
oo
tno
te a
t end
of t
ab
le.
cit
w
~
'° '
u,
Tabl
e 9-
27.
Cab
le D
ata-
Con
tinue
d I
~
Cab
le
Ref
eren
ce N
o.
Leng
th (
ft.)
N
umbe
r o
f co
nduc
tors
42W
50
1103
9279
50
4
42W
54
1103
9280
50
60
42
W54
11
0392
99
50
60
43W
6 11
0392
81
50
4 43
W9
1103
9282
50
60
43
W10
11
0392
83
50
4 58
Wl
1103
9284
50
4
60W
3 11
0392
55
35
6 60
W9
1103
9256
40
60
60
W9
1103
9300
40
60
60
W10
11
0392
57
40
60
60W
10
1103
9301
40
60
60
Wll
11
0392
58
40
60
60W
ll
1103
9302
40
60
60
W12
11
0392
59
40
60
60W
12
1103
9303
40
60
60
W16
11
0392
60
5 4
0 ~
{,
{ {
( (
{ /
(') ~
U>
er. c.n
( (
(_
Cab
le
60W
17
60W
18
60W
20
60W
21
60W
25
60W
32
60W
32
60W
34
60W
34
60W
37
60W
38
60W
40
60W
40
60W
43
60W
44
60W
44
60W
56
(
Tabl
e 9-
27.
Cab
le D
ata-
Con
tinue
d
Ref
eren
ce N
o.
Leng
th (
ft.)
1103
9261
5
11
03
93
04
50
0 1
10
39
26
2
150
11
03
92
63
20
1
10
39
26
4
16
11
03
92
65
45
1
10
39
30
5
45
11
03
92
66
40
1
10
39
30
6
40
11
03
92
67
21
1
10
39
26
8
12
11
03
92
69
40
1
10
39
30
7
40
11
03
92
70
10
0 11
0392
71
100
11
03
93
08
10
0 1
10
39
27
2
25
{ (
',
I N
umbe
r o
f co
nduc
tors
60
9 4 4 4 60
60
60
60
4 4 60
60
9 25
25
7
~
U>
c:n
°' n .i:.
Cab
le
60W
101
60W
103
60W
105
60W
108
60W
109
60W
110
60
Wll
l 60
W11
2 60
Wl 1
4 60
Wl 1
5 69
Wl
69W
3 76
W3
98W
l 98
W2
98W
3 1
Val
ues
for
mai
n br
anch
onl
y.
{ (
Tabl
e 9-
27.
Cab
le D
ata-
Con
tinue
d
Ref
eren
ce N
o.
Leng
th (
ft.)
1103
9201
50
11
0392
03
35
1103
9221
55
0 11
0386
14
22
1103
9209
15
0 11
0392
10
50
1103
9211
35
11
0392
12
35
1103
9214
22
11
0385
90
12
1103
9289
50
11
0392
90
50
1102
8552
2.
2 11
0392
04
10
1103
9205
10
11
0392
97
2.5
{ {
Num
ber
of c
ondu
ctor
s
1 2 14
4 4 4 5 5 4 4 4 6 25
60
60
9
( {
\ I ~
r
C4
NOit, CAlll QAtdS All llNUTED '°' CAllU IUS !HAN Q.S INCH IN Dl....Slll .
..,_. Figure 9·6. Typical multiconductor electrical cables.
9-57 /(9·58 blank)
,,;?"' 1'
____ ,/
CHAPTER 10 SYSTEM COMPONENTS.TEST STATION
(CONTENTS)
Item Reference Page
CMTS confidence tests program data .................................................. .
SCTS interior (auxiliary equipment), Table 10-2 10-151
left side ........................................... .. Fig. 10-6 10-9 SCTS interior (auxiliary equipment),
right side .......................................... . Fig. 10-5 10-8 SCTS interior (major assemblies),
left side ............................................ . Fig. 10·4 10-7 SCTS interior (major assemblies),
right side ......................................... .. Fig. 10-3 10·6 SCTS shelter physical data ................ .. Fig. 10·1 10·4 SCTS transportation data ................... . Fig. 10-2 10·5 Tabulated data ................................... .. UUT test set up data ........................... .
Par. 10-1 10·31 Table 10-1 10·10
I
C4 10-1/(10-2 blank)
CHAPTER 10 SYSTEM COMPONENTS TEST STATION
10-1 . Tabulated Data.
a. Input Requirements. SCTS power entry panel. ....... 28v de, 65 amp; l 20/208v,
400 Hz, 3·phase, 100 amp/ phase PTS power cab le entry panel. ........... 28v de, 35 amp; 120/
208v, 400 Hz, 3 ·phase, 50 amp/phase
High.pressure air .............. ................. . .. .... .. .. . .. 3,000 psig
b. Towing Speed Limitations. Improved roads and highways ... . .......... 50 mph (80 kmph)
._, Unimproved roads .. ... ... .. . . ..... ... .. ......... 30 mph (48 kmph) Rough ter ra in and poor roads .. . . ........ ....... 5 mph (8 kmph)
10-3
... 0 .;..
n
TIE
DO
WN
P
OIN
TS
2
7,5
00
LB
( I
2,4
74
.2 K
G)
EA
CH
LIM
IT L
OA
D
FR
ON
T V
IEW
NO
TE
:
2 T
lED
OW
N P
OIN
TS
(T
YP
, U
ND
ER
BO
TH
SID
ES
)
\
00
LB
(2
,90
3.0
4 K
G)
EA
CH
LIM
IT L
OA
D
5 T
IED
OW
N P
OlN
TS
(T
YP
, E
AC
H S
IDE
) I
1,0
00
LB
(4
53
.6 K
G)
EA
CH
LIM
IT L
OA
D
\ (A
IRC
RA
FT
ON
LY
) I_
[
39
5.2
5 I
N.
(10
.04
M)-
16 I
N.
(0.4
1 M
)
HO
IST
PO
INT
S
(TY
P,
BO
TH
SID
ES
)
I 1
L_
l49
.25
lN
. I
,.
23
4.8
8 I
N.
( 1.7
8 M
:)
30
6.7
5 l
N.
<5·97
Ml
WE
IGH
TS
: V
AN
-16
,495
LB
(7
,48
2 K
Gi
LJ:
r---
(3=
38
0M
)
701N
.__,
(7. 7
9 M
) T
IED
OW
N P
OIN
TS
2
2,0
00
LB
(9
,97
9.2
KG
) E
AC
H L
IMIT
LO
AD
R
EA
R A
XL
E-6
,01
4 L
B (
2.7
28
KG
).
LA
ND
ING
GE
AR
-10
,481
LB
(4
,75
4 K
G)
KIN
GP
IN-8
,02
6 L
B (
3,6
41
KG
l
Fig
ure
10
-1.
SC
TS s
hel
ter
phys
ical
dat
a.
132
IN.
(3.3
5 M
)
PIN
T L
E
LIM
IT L
OA
D
46
,000
LB
(2
0,8
65
.6 K
G)
FS
NB
-9A
I
n N
... ~ UI
( {
NO
TE
S:
{
55
8 I
N.
(14
.17
M)
1.
WE
IGH
T:3
3,4
96
LB
. (1
5,1
94
KG
).
2.
TU
RN
ING
RA
DIU
S:4
2.5
FT
. (1
2.9
5 M
) •
(
Fig
ure
10-2
. SC
TS t
rans
port
atio
n da
ta.
( (
l
FSN
B ...
IOB
I ~
}
.... 0 Cn C') w
( (,
TAPE
STO
RA
GE
CA
BIN
ET
AN
D W
OR
KTAB
LE
Fig
ure
10
-3.
SCTS
in
teri
or
(ma
jor
asse
mbl
ies)
,
{ ri
gh
t si
de.
(
\
( {
)
n .... 0 .:..
( (
(
~
,r ~
( (
AIR
CO
ND
ITIO
NIN
G U
NIT
3,
20
,000
BTU
EA
CH
(
FS
NB
-40
AI
Fig
ure
10
-4.
SCTS
in
teri
or
(maj
or a
ssem
blie
s),
left
sid
e.
" ~
... 0 Co n w
{ {l
120V
AC
C
ON
VE
NIE
NC
E
OU
TLET
TEST
DO
li.Y
Fig
ure
10
-5.
SCTS
in
teri
or
(aux
iliar
y eq
uipm
ent)
, ri
gh
t si
de.
{ {
~
HA
ND
LA
NTE
RN
FS
NB
-39B
I
( (,
)
.....
0 ID ()
(
CO
ND
lllO
NE
D·A
IR
REI
UR
N.A
IR
DU
CI
REG
IS I E
R 13
/ POR
IAB
I E H
EA IE
R J
CA
BlE
DU
CT
CO
VER
fflU
SHJ
RO
fAJt
Y
INV
ERTE
R FI
XIU
RE
INO
l S
HO
WN
1
Fig
ure
10
-6.
SC
TS i
nte
rio
r (a
uxi
liary
eq
uip
me
nt)
, le
ft s
ide
.
FS
NU
·JB
A I
... ~ ... 0 (") ~
Ass
embl
y na
me
iolt
ag
e r
eg
ula
tor
Pow
er d
istr
ibu
tor
:;o
ntr
ol c
ompu
ter
)C a
mp
lifie
r Je
mo
du
lato
r Is
ola
tion
am
plif
ier
:;a
pa
cito
r as
sem
bly
Mai
n d
istr
ibu
tor
"da
pti
on
kit
sim
ula
tor
Gui
danc
e co
mp
ute
r
iolt
ag
e m
on
itor
mod
ule
Pro
gram
ge
ne
rato
r R
otar
y in
vert
er
Rel
ay
Rel
ay
Ele
ctro
nic
tim
er
Ele
ctro
nic
tim
er
{,i
(
Tabl
e 10
-1.
UU
T Te
st S
et U
p D
ata
Tape
R
efer
ence
C
onta
iner
P
art
No.
de
sign
atio
n N
o.
I05
60
9II
8A
11A
I I 1
0357
75
I056
4660
8A
2 I 1
0357
75
I056
4702
8
All
I I
0357
75
I05
64
7I4
8A
I IA
2 th
ru A
6 II
03
57
75
I0
56
47
I5
8AI I
A7
thru
A9
II0
35
77
8
I05
64
7I6
SA
I IA
IO
I I03
5775
I0
5647
17
......
. II
03
57
75
I0
5694
89
BAI
I 103
5775
I0
57
7IO
I 28
AI
II0
35
77
5
I05
86
50
0
BA
IO
1103
5778
I058
8880
8A
IOA
I9
II0
35
77
8
I058
9300
-·
·····
I 103
5778
I0
5969
06
8A4,
95A
9 I 1
0357
75
I060
7305
-I
------
-11
0357
83
I060
7305
-3
......
. 11
0357
83
I060
8279
---
----
I103
5783
I0
6082
80
------
-II
03
57
83
( {
Pro
gram
N
o.
I44
I0
3
106
I42
I4
3
I40
I4I
IOI,
1 I I
11
0 I0
5,11
5,I2
5,
I35
I46
I4
7 I0
2
620
623
6I2
62
4
(
Cab
le
95W
27
95W
5 95
WIO
95
W27
95
W27
95
W27
95
W27
95
W7
95W
6 95
WI3
95W
27
95W
I2
95W
8 95
W27
95
W27
95
W27
95
W27
(
'\ I /''
n .... 0 .... 0 ....
("
Tab
le 1
0-1
.SC
TS
UU
T T
rou
ble
sho
otin
g a
nd M
aint
enan
ce D
ata
Te
sts-
Co
nti
nu
ed
Re
fere
nce
C
on
tain
er
Ta
pe
P
rog
ram
A
sse
mb
ly n
ame
de
sig
na
tio
n
No
. N
o.1
No.
C
able
Pro
gra
mm
ing
ta
pe
an
d c
on-
----
-1
10
35
77
7
27
7
10
ta
ine
r (a
sse
mb
ly t
est
er
exe
cuti
ve)
Pro
gra
mm
ing
tap
e a
nd
con
-..
...
11
03
57
76
2
6
70
0
95
W4
1
tain
er
(ass
emb
ly t
est
er
self-
thru
te
st)
95
W4
4 I
1T
ap
e n
um
be
rs d
ep
icte
d by
l 1
03
57
XX
; e
.g.,
ac
stim
uli
ta
pe
num
ber
is
11
03
57
30
.
I r --.\
(") ~
.... 9 .... ....
s s R
R
H
l H
A
A
R
A
N
D
R s
{ (
Ass
embl
y na
me
erv
oa
mp
lifie
r m
od
ule
erv
oa
mp
lifie
r e
lay
asse
mbl
y e
lay
ydra
ulic
act
ua
tor
ow p
ower
load
s ig
h po
wer
load
s cc
ele
rom
ete
r si
mu
lato
r C
sti
mu
li e
lay
tre
e c
ard
C c
urr
en
t se
nsor
o
n-l
atc
hin
g r
elay
car
d io
de a
ssem
bly
esi
stiv
e lo
ad
peci
al lo
ads
card
( (
( (
"' T
able
10-
1. U
UT
Tes
t S
et U
p D
ata
-Co
ntin
ue
d
Tape
R
efer
ence
C
onta
iner
P
rogr
am
Pa
rt N
o.
desi
gnat
ion
No.
N
o.
Cab
le
1061
0100
or
8AlO
A9,
All
, 11
0357
78
150
95W
27
1061
0150
A
13,A
l4,A
l6
1061
0800
8A
34
1103
5775
10
4 95
W9
1061
1741
...
....
1103
5775
14
5 9
5W
ll
1063
0142
-1/-
3 ---
----
1103
5783
61
0 95
W27
10
6411
00
lOA
lO,A
l 1,A
l2
1103
5775
10
7 95
Wl9
an
d ll
AlO
,All
, A
l2
1103
5075
95
A3A
3 11
0357
81
304,
314,
324
95W
32
1103
5220
95
A3A
4 11
0357
82
303
95W
31
1103
5260
95
A3A
202
1103
5782
30
7 95
W28
11
0352
75
95A
3A5
1103
5780
30
1,32
1 95
W25
11
0353
05
......
. 11
0357
79
343
95W
27
1103
5310
...
....
1103
5779
35
2 95
W27
11
0353
15
......
.. 11
0357
79
354
95W
27
1103
5320
...
......
11
0357
79
353
95W
27
1103
5325
---
----
1103
5779
34
6 95
W27
11
0353
30
95A
3A21
4 11
0357
79
341
95W
27
~
.... 0 .=..
N 0 ~
Ass
embl
y na
me
La
dd
er
ne
two
rk c
ard
DC
sti
mu
li re
gu
lato
r ca
rd
Ma
ste
r co
ntr
ol
pane
l P
ow
er
rela
y ca
rd
Co
un
ter
me
asu
rem
en
ts
card
B
eta
sim
ula
tor
card
S
peci
al s
tim
uli
R-Z
me
asu
rem
en
ts c
ard
Ele
ctro
pn
eu
ma
tic t
est
se
t P
ne
um
ati
c co
ntr
ol
pane
l D
C s
tim
uli
Ca
rd/r
ela
y te
st p
anel
C
ard
/re
lay
test
pan
el
EL c
on
tro
l bo
x R
elay
R
elay
R
elay
(,
(
Tab
le 1
0-1.
UU
T T
est
Set
Up
Dat
a-C
on
tin
ued
Tape
R
efer
ence
C
onta
iner
P
rogr
am
Pa
rt N
o.
desi
gnat
ion
No.
N
o.
1103
5335
95
A3A
171.
A19
1 11
0357
79
347
1103
5340
95
A3A
l 72,
Al9
2 11
0357
79
350
1103
5343
95
A3A
l 11
0357
82
305
1103
5345
---
-·--
1103
5779
35
1 11
0353
50
95A
3A17
9 11
0357
82
345
1103
5355
95
A3A
216
1103
5780
34
0 11
0353
60
95A
3A20
8 11
0357
79
342
1103
5365
95
A3A
197
1103
5782
34
4 11
0353
75
95A
2A2
1103
5782
31
1 11
0353
96
95A
2Al
1103
5782
31
0 11
0354
50
95A
3A16
4,A
184
1103
5780
30
2 11
0354
91
95A
3A2
1103
5782
30
6 11
0359
46
95A
3A6
1103
5782
31
6,32
6 11
0382
35
97A
1Al
1103
5783
40
1,41
1 11
0400
47
......
....
1103
5783
61
1 11
0403
23
------
-11
0357
83
614
1104
0606
---
----
1103
5783
62
1
{ {
(
Cab
le
95W
27
95W
27
95W
33
95W
27
95W
27
95W
27, 4
7 95
W27
95
W27
95
W30
95
W29
95
W26
95
W27
95
W27
, 47
95W
34
95W
27
95W
27
95W
27
{
~ I ~
(')
.c:- .... 0 ..:..
w
{ (
Ass
embl
y na
me
Azi
mut
h la
ying
con
trol
pa
nel
Vol
tage
-pho
ne m
onito
r pa
nel
Neg
ativ
e b
it ge
nera
tor
-65
vol
t po
wer
sup
ply
Azi
mut
h la
ying
con
trol
box
F
ilte
r an
d te
st
Att
en
ua
tor
limit
er
and
am
plif
ier
Com
para
tor
and
am
plif
ier
Osc
illa
tor
asse
mbl
y
Com
pute
r po
wer
sup
ply
Tap
e re
ader
R
emot
e fir
ing
box
T
ele
pri
nte
r EL
26
vol
t po
wer
sup
ply
( (
( (
' T
able
10-
1. U
UT
Tes
t S
et U
p D
ata
-Co
ntin
ue
d
I Ta
pe
Ref
eren
ce
Con
tain
er
Pro
gram
P
art
No.
de
sign
atio
n N
o.
No.
C
able
'11
05
11
20
(9
5A
)32
A3
A7
1
10
35
78
0
503
95W
23
11
05
11
30
(9
5A
)32
A3
A2
1
10
35
78
3
505
95W
21
11
05
11
60
---
----
11
03
57
82
54
2 95
W27
, 47
1
10
51
17
0
(95
A)
11
03
57
83
54
0 95
W27
3
2A
2A
7A
lll
11
05
12
90
8
2A
l4
11
03
57
83
50
7 95
W24
1
10
51
32
0
------
-1
10
35
78
2
54
3
95W
27, 4
7 1
10
51
42
0
------
-1
10
35
78
2
544
95W
27,
47
11
05
14
25
---
--··
11
03
57
82
54
1 95
W27
, 47
1
10
52
42
1
(95
A)
11
03
57
75
51
1 95
W14
3
2A
lA2
AlZ
33
1
10
52
70
2
(95
A)3
2A
1A
6 1
10
35
78
0
512
95W
18
11
05
28
00
(9
5A
)32
A3
A4
1
10
35
78
0
502
95W
17
11
05
31
40
3
2A
4A
10
Al
11
03
57
80
50
6 95
W22
M
ISl 7
30
0
32
A3
A8
1
10
35
78
0
501
95W
16
MIS
l 73
09
97
PS
1 1
10
35
78
0
405
95W
37
~
.... 9 .... ol:lt 0 ol:lt
Ass
embl
y na
me
EL l
evel
sen
sor
Ele
ctro
nic
con
tro
l a
mp
lifie
r le
ve
l sen
sing
sys
tem
le
ve
l sig
nal
sens
or
am
plif
ier
EL p
ower
sup
ply
Am
plif
ier-
de
mo
du I a
tor
leve
ling
am
plif
ier-
de
mo
du
lato
r 1
2/1
4/2
8v
de p
ower
sup
ply
Rel
ay
{,,
{
Tab
le 1
0-1.
UU
T T
est
Set
Up
Da
ta-C
on
tinu
ed
f
Tape
R
efer
ence
C
onta
iner
P
rogr
am
Pa
rt N
o.
desi
gnat
ion
No.
N
o.
Cab
le
MIS
l 73
10
9
7A
2
11
03
57
80
4
04
95
W36
M
ISl 7
31
1
97
A1
A2
1
10
35
78
0
40
3
95W
35
------
-··-
----
11
03
57
80
4
02
95
W38
M
ISl 7
31
3
·····-
-1
10
35
77
9
441
95W
39
MIS
l 73
14
---
----
11
03
57
79
44
0 95
W39
M
ISl 7
31
5
97
A1
A2
A5
1
10
35
77
9
442
95W
39
MIS
l 73
16
97
A1
A2
Al,
A3
1
10
35
77
9
44
3
95W
39
MIS
17
31
7
95
A3
A9
,A1
0,
11
03
57
82
3
12
95
W15
A
ll
MS
25
32
7D
l ---
----
11
03
57
83
6
22
95
W27
( (
( (
/
(") ~
.....
<?
.....
U1
( (
Tabl
e 10
-2.
CM
TS C
onfid
ence
Tes
ts P
rogr
am D
ata
Ref
eren
ce
Con
tain
er
Tap
e Te
st
Ass
embl
y na
me
No.
N
o.
No.
co
nnec
tor
Ser
voam
plif
ier
11
05
11
55
1
10
53
11
0
11
05
30
60
A
27
Mod
ulat
or-d
emod
ulat
or
110
51
16
5
11
05
31
10
1
10
53
06
0
A27
C
urre
nt d
rive
r 1
10
51
18
5
11
05
311
0 1
10
53
06
0
A27
rr
eque
ncy
and
cons
tant
1
10
51
19
0
11
05
31
10
1
10
53
06
0
A27
m
onit
or
Mon
itor
mod
ule
11
05
12
20
1
10
53
11
0
11
05
30
60
M
M
atrix
dri
ver
11
05
12
30
1
10
53
11
0
11
05
30
60
M
D
Cap
acit
or m
odul
e 1
10
51
23
5
11
05
31
10
1
10
53
06
0
cc
-24
-vol
t po
wer
sup
ply
110
51
24
0
11
05
31
10
1
10
53
06
0
A27
P
rogr
amm
able
pow
er s
uppl
y 1
10
51
25
0
110
53
11
0
11
05
30
60
A
27
XI
Z t
orqu
er
11
05
12
55
1
10
53
11
0
11
05
30
60
A
28
Y to
rque
r 1
10
51
26
5
11
05
31
10
1
10
53
06
0
A28
R
elay
car
d 1
10
51
27
5
11
05
31
10
1
10
53
06
0
A26
V
olta
ge s
enso
r 1
10
51
29
5
11
05
31
10
1
10
53
06
0
A27
T
est
driv
er
110
51
31
0
11
05
31
10
1
10
53
06
0
A27
L
oad
sim
ulat
or
110
51
31
5
11
05
31
10
1
10
53
06
0
A27
P
ulse
seq
uenc
er a
nd d
etec
tor
11
05
13
30
1
10
53
11
0
11
05
30
60
A
27
' I T
est
IRI
code
di
spla
y
61
SRV
A
68
M
OO
D
75
CU
DR
6
7
FCM
O
83
M
OM
O
82
M
AT
O
84
cc
66
24
VP
76
CPP
S 69
X
ZTQ
7
0
YTR
Q
71
RELY
7
7
VSN
S 78
C
MD
C
79
CU
T
80
C
PSD
.....
9 .....
en
(') .s::.
Tabl
e 10
·2.
CM
TS C
onfid
ence
Tes
ts P
rogr
am D
ata-
Con
tinue
d
Ref
eren
ce
Co
nta
ine
r T
ape
Tes
t T
est
Ass
em
bly
na
me
N
o.
No.
N
o.
con
ne
cto
r co
de
Load
mo
du
le
11
05
17
96
1
10
53
11
0
11
05
30
60
M
D
87
C
om
ma
nd
mo
du
le
11
05
18
87
1
10
53
11
0
11
05
30
60
C
M
81
H
EF
U t
ime
r 1
10
51
92
0
11
05
31
10
1
10
53
06
0
A2
7
74
R
eed
rela
y ca
rd
11
05
30
45
1
10
53
11
0
11
05
30
60
A
26
6
0
Te
lep
ho
ne
am
plif
ier
11
05
31
05
1
10
53
11
0
11
05
30
60
A
27
73
D
ual
mo
du
lato
r-d
em
od
ula
tor
11
05
31
59
1
10
53
11
0
11
05
30
60
A
27
8
6
Flip
-flo
p m
od
ule
1
10
52
40
1
11
05
18
65
1
10
51
81
5
A2
9
1 M
ult
iple
x m
od
ule
1
10
52
40
2
11
05
18
65
1
10
51
81
5
A2
9
2 A
dd
er
carr
y ch
ain
mo
du
le
11
05
24
03
1
10
51
86
5
11
05
18
15
A
29
3
Ad
de
r m
od
ule
1
10
52
40
4
11
05
18
65
1
10
51
81
5
A29
4
Pa
rity
mo
du
le
11
05
24
05
1
10
51
86
5
11
05
18
15
A
29
5
Re
gis
ter
mo
du
le
11
05
24
06
1
10
51
86
5
11
05
18
15
A
29
6
Dri
ver
an
d g
ate
mo
du
le
11
05
24
07
1
10
51
86
5
11
05
18
15
A
29
7
Flip
-flo
p m
od
ule
1
10
52
40
8
11
05
18
65
1
10
51
81
5
A2
9
8 C
on
tro
ls m
od
ule
1
10
52
40
9
11
05
18
65
1
10
51
81
5
A2
9
9 C
om
pa
rato
r m
od
ule
1
10
52
41
0
11
05
18
65
1
10
51
81
5
A2
9
10
D
eco
de
r m
od
ule
1
10
52
41
1
11
05
18
65
1
10
51
81
5
A2
9
11
Ga
te m
od
ule
1
10
52
41
2
11
05
18
65
1
10
51
81
5
A2
9
12
(/
( (
( (
~ IR
I d
isp
lay
LM
CM
-L
HE
FU
RD
RL
TE
LA
DM
OD
H
Y1
01
H
Y1
02
H
Y1
03
H
Y1
04
H
Y1
05
H
Y1
06
H
Y1
07
H
Y1
08
H
Y1
09
H
YllO
H
Yl 1
1 H
Yl 1
2
{ /
( (
( (
{ ('
) w
Tab
le 1
0-7
. U
UT
's W
ithou
t P
rogr
amed
Hal
ts (
UU
T C
onfid
ence
Tes
t)
.... 9 .... ~ .... ........
-.... 9 .... °' N !!:
m
Ass
embl
y na
me
Cap
acito
r as
sem
bly
Pro
gram
ge
ne
rato
r R
elay
E
lect
roni
c ti
me
r R
elay
ass
embl
y R
elay
R
elay
tre
e c
a rd
A
C cu
rre
nt
sens
or
Non
-lat
chin
g re
lay
card
D
iode
ass
embl
y R
esis
tive
load
P
ow
er
rela
y ca
rd
Rel
ay
Rel
ay
Rel
ay
Leve
l si
gnal
sen
sor
am
plif
ier
97A
lA2A
2. A
4 =-
See
foo
tnot
e a
t en
d o
f ta
ble.
-
Ref
eren
ce
Con
tain
er
Tap
e P
rogr
am
No.
N
o.
No.
1 N
o.
1056
4717
11
0357
75
25
141
1058
9300
11
0357
78
28
147
1060
7305
-1
1103
5783
33
62
0 10
6082
79
1103
5783
33
61
2 10
6117
41
1103
5775
25
14
5 10
6301
42
1103
5783
33
61
0 11
0353
05
1103
5779
29
34
3 11
0353
10
1103
5779
29
35
2 11
0353
15
1103
5779
29
35
4 11
0353
20
1103
5779
29
35
3 11
0353
25
1103
5779
29
34
6 11
0353
45
1103
5779
29
35
1 11
0400
47
1103
5783
33
61
1 11
0403
23
1103
5783
33
61
4 11
0406
06
1103
5783
33
62
1 M
IS 1
73
13
/1
1103
5779
29
44
1
( '
Cab
le
95W
27
95W
12
95W
27
I 95
W27
9
5W
ll
95W
27
95W
27
95W
27
95W
27
95W
27
95W
27
95W
27
95W
27
95W
27
95W
27
95W
39
)
.... <? .... "-I C
) ~
(
Tabl
e 10
-2.
CM
TS C
onfid
ence
Tes
ts P
rogr
am
Dat
a-C
onti
nued
Ref
eren
ce
Con
tain
er
Tape
T
est
Tes
t A
ssem
bly
nam
e N
o.
No.
N
o.
conn
ecto
r co
de
Mul
tiple
x m
odul
e 1
10
52
41
3
11
05
18
65
1
10
51
81
5 A
29
13
Con
trol
s m
odul
e 1
10
52
41
4
11
05
18
65
11
0518
15
A
29
14
Con
trol
s m
odul
e 1
10
52
41
5
11
05
18
65
11
05
181
5 A
29
15
Buf
fer
mod
ule
11
05
24
16
110
51
86
5
11
05
18
15
A29
16
M
ulti
plex
mod
ule
11
05
24
17
1
10
518
65
11
05
181
5
A29
17
M
ultip
lex
mod
ule
1
10
52
41
8
11
05
18
65
1
10
518
15
A
29
18
Gat
e m
odul
e 1
10
52
41
9
11
05
18
65
1
10
51
81
5
A29
19
G
ate
mod
ule
11
05
24
20
1
10
51
86
5
11
05
18
15
A
29
20
O
utpu
t le
vel
chan
ger
11
05
24
22
11
05
18
65
11
05
18
15
A29
22
In
put
leve
l ch
ange
r 11
05
24
23
1
10
51
86
5
11
05
181
5 A
29
23
D
iode
gat
e ca
rd
11
05
24
24
1
10
51
86
5
11
05
18
15
A29
2
4
Lam
p dr
iver
mod
ule
1
10
52
42
5
11
05
186
5
11
05
18
15
A
30
25
D
rive
r m
odul
e 1
10
52
42
6
11
05
18
65
1
10
51
81
5
A30
26
P
osit
ive
OR
det
ecto
r 1
10
52
429
1
10
51
86
5
11
05
181
5 A
29
29
Sen
se a
mpl
ifie
r /in
hibi
t dri
ver
11
05
24
32
1
10
51
865
1
10
51
81
5
A30
32
A
ddre
ss d
ecod
er/c
ore
driv
er
11
05
24
33
1
10
51
86
5
11
05
18
15
A
30
33
A
ddre
ss b
uffe
r m
odul
ator
1
10
52
43
4
11
05
18
65
1
10
51
81
5
A30
3
4
Cur
ren
t st
abil
izer
mod
ulat
or
11
05
24
35
1
10
51
86
5
110
518
15
A30
3
5
Str
ip p
rint
er d
rive
r 1
10
52
43
6
11
05
18
65
1
10
51
81
5
A29
3
6
I IR
I di
spl a
y
HY
113
HY
l 14
HY
115
HY
116
HY
l 17
HY
118
HY
11
9 H
Y12
0 H
Y12
2 H
Y1
23
H
Y12
4 H
Y12
5 H
Y12
6 H
Y12
9 H
Y13
2 H
Y13
3 H
Y13
4 H
Y13
5 H
Y13
6
- 9 -00 0 ~
Tab
le 1
0-2.
CM
TS C
onfid
ence
Tes
ts P
rogr
am D
ata
-Co
ntin
ue
d
Ref
eren
ce
Co
nta
ine
r T
ape
Tes
t T
est
Ass
embl
y na
me
No.
N
o.
No.
co
nnec
tor
code
Tes
t d
rive
car
d 1
10
52
43
7
11
05
18
65
1
10
51
81
5
A2
9
37
T
imin
g a
nd c
on
tro
l A
1
10
52
43
8
11
05
18
65
1
10
51
81
5
A3
0
38
T
imin
g a
nd
co
ntr
ol
B
11
05
24
39
1
10
51
86
5
11
05
18
15
A
30
39
R
ead
am
plif
ier
mo
du
le
11
05
28
12
1
10
51
86
5
11
05
18
15
A
30
2
7
Co
ntr
ol
circ
uit
mo
du
le
11
05
28
17
1
10
51
86
5
11
05
18
15
A
30
2
8
()
{ (
( (
IRI
dis
pla
y
HY
13
7
HY
13
8
HY
13
9
HY
12
7
HY
12
8
{
.'\ I ~
( {
( (
{ (
' fl
Tab
le 1
0-8
. C
MTS
Con
fiden
ce T
ests
Pro
gram
Da
ta-C
on
tinu
ed
Ref
eren
ce
Co
nta
ine
r T
ape
Tes
t T
est
IRI
Ass
embl
y na
me
No.
N
o.
No.
co
nn
ect
or
code
di
spla
y
Load
mod
ule
11
05
17
96
1
10
53
11
0
11
05
30
60
M
D
87
LM
•
Com
man
d m
odul
e 1
10
51
88
7
11
05
31
10
1
10
53
06
0
CM
81
C
M-L
H
EFU
tim
er
11
05
19
20
1
10
53
11
0
11
05
30
60
A
27
74
H
EFU
R
eed
rela
y ca
rd
11
05
30
45
1
10
53
11
0
11
05
30
60
A
26
60
R
DR
L D
ual
mo
du
lato
r-d
em
od
ula
tor
11
05
31
59
1
10
53
11
0
11
05
30
60
A
27
86
D
MO
D
Flip
-flo
p m
od
ule
1
10
52
40
1
11
05
18
65
1
10
51
81
5
A29
1
HY
lOl
Mu
ltip
lex
mo
du
le
11
05
24
02
1
10
51
86
5
11
05
18
15
A
29
2 H
Y1
02
A
dd
er
carr
y ch
ain
mo
du
le
11
05
24
03
1
10
51
86
5
11
05
18
15
A
29
3
HY
10
3
Ad
de
r m
od
ule
1
10
52
40
4
11
05
18
65
1
10
51
81
5
A29
4
HY
10
4
Pa
rity
mod
ule
11
05
24
05
1
10
51
86
5
11
05
18
15
A
29
5
HY
10
5
Reg
iste
r m
od
ule
1
10
52
40
6
11
05
18
65
1
10
51
81
5
A29
6
HY
10
6
Dri
ver
and
gate
mod
ule
11
05
24
07
1
10
51
86
5
11
05
18
15
A
29
7
HY
10
7
Flip
-{lo
p m
od
ule
1
10
52
40
8
11
05
18
65
1
10
51
81
5
A2
9
8 H
Y1
08
C
on
tro
ls m
odul
e 1
10
52
40
9
11
05
18
65
1
10
51
81
5
A2
9
9 H
Y1
09
C
om
pa
rato
r m
odul
e 1
10
52
41
0
11
05
18
65
1
10
51
81
5
A2
9
10
H
YllO
D
ecod
er m
odul
e 1
10
52
41
1
11
05
18
65
1
10
51
81
5
A29
11
H
Ylll
Gat
e m
od
ule
1
10
52
41
2
11
05
18
65
1
10
51
81
5
A2
9
12
H
Y1
12
... c;:»
... '° )
... ~
N
0 n ...,
Tab
le 1
0-8
. C
MTS
Con
fiden
ce T
ests
Pro
gram
Da
ta-C
on
tin
ue
d
Ref
eren
ce
Co
nta
ine
r T
ape
Tes
t T
est
Ass
embl
y na
me
No.
N
o.
No.
co
nnec
tor
code
Mu
ltip
lex
mo
du
le
11
05
24
13
1
10
51
86
5
11
05
18
15
A
29
13
Co
ntr
ols
mo
du
le
11
05
24
14
1
10
51
86
5
11
05
18
15
A
29
1
4
Co
ntr
ols
mo
du
le
11
05
24
15
1
10
51
86
5
11
05
18
15
A
29
15
Bu
ffe
r m
od
ule
1
10
52
41
6
11
05
18
65
1
10
51
81
5
A2
9
16
M
ulti
ple
x m
od
ule
1
10
52
41
7
11
05
18
65
1
10
51
81
5
A29
1
7
Mu
ltip
lex
mo
du
le
11
05
24
18
1
10
51
86
5
11
05
18
15
A
29
18
G
ate
mo
du
le
11
05
24
19
1
10
51
86
5
11
05
18
15
A
29
19
G
ate
mo
du
le
11
05
24
20
1
10
51
86
5
11
05
18
15
A
29
2
0
Ou
tpu
t le
vel
chan
ger
11
05
24
22
1
10
51
86
5
11
05
18
15
A
29
22
In
pu
t le
vel
chan
ger
11
05
24
23
1
10
51
86
5
11
05
18
15
A
29
23
D
iode
gat
e ca
rd
11
05
24
24
1
10
51
86
5
11
05
18
15
A
29
24
La
mp
dri
ver
mo
du
le
11
05
24
25
1
10
51
86
5
11
05
18
15
A
30
25
D
rive
r m
od
ule
1
10
52
42
6
11
05
18
65
1
10
51
81
5
A3
0
26
P
ositi
ve O
R d
etec
tor
11
05
24
29
1
10
51
86
5
11
05
18
15
A
29
29
Sen
se a
mp
lifie
r/in
hib
it d
rive
r 1
10
52
43
2
11
05
18
65
1
10
51
81
5
A3
0
32
Add
ress
de
cod
er/
core
dri
ver
11
05
24
33
1
10
51
86
5
11
05
18
15
A
30
33
A
ddre
ss b
uff
er
mo
du
lato
r 1
10
52
43
4
11
05
18
65
1
10
51
81
5
A3
0
34
C
urr
en
t st
ab
ilize
r m
od
ula
tor
11
05
24
35
1
10
51
86
5
11
05
18
15
A
30
3
5
Str
ip p
rin
ter
dri
ver
11
05
24
36
1
10
51
86
5
11
05
18
15
A
29
3
6
( (\
( {
{
\
IRI
disp
lay
HY
l 13
H
Yl 1
4
HY
11
5
HY
11
6
I H
Y1
17
H
Y1
18
H
Yl 1
9 H
Y1
20
H
Y1
22
H
Y1
23
H
Y1
24
H
Y1
25
H
Y1
26
H
Y1
29
H
Y1
32
H
Y1
33
H
Y1
34
H
Y1
35
H
Y1
36
( ~
(') .....
0 N .....
Tab
le 1
0-8
. C
MT
S C
onfi
de
nc
e T
ests
Pro
gra
m D
ata-
Con
tin
ue
d
Ref
eren
ce
Cont
aine
r Ta
pe
Test
T
est
Ass
embl
y na
me
No.
N
o.
No.
co
nnec
tor
code
Tes
t dr
ive
card
1
10
52
43
7
110
51
86
5
110
51
81
5 A
29
37
Tim
ing
and
cont
rol
A
11
05
24
38
11
05
18
65
1
10
518
15
A
30
38
Tim
ing
and
cont
rol
B
11
05
24
39
1
105
18
65
1
105
181
5
A30
39
R
ead
ampl
ifie
r m
odul
e 1
10
52
81
2
110
51
86
5
11
05
181
5
A30
27
C
ontr
ol c
ircu
it m
odul
e 1
10
52
81
7
11
05
18
65
1
10
51
81
5
A30
28
I IR
I di
spla
y
HY
137
HY1
38
HY
139
HY
127
HY
128
r
-w
--
Item
CHAPTER 11 SHOP SETS
(CONTENTS)
Electrical repai r shop ...................... . General ......................................... . Mechanical repair shop .................. .. Preservation and packaging shop .... .. Supply office ................................. .. Tabu lated data .............................. .. Test equipment stored but not used
in electrical repair shop ............ .. .. . Type I repa ir parts shop .......... ... .... .. Type II repa ir parts shop .......... ...... .. Typica l shop set shelter physical
data ........... .............................. .. .
Reference
Par.11 ·4 Par. 11 ·1 Par.11 ·3 Par. 11 ·5 Par. 11· 2 Par. 11·8
Table 11-1 Par.11 ·6 Par. 11 ·7
Fig. 11·1
Page
11-3 11-3 11 -3 11 ·4 11 ·3 11·4
11·5 11-4 11-4
11·6
11-1
II
~-
. ....--.. 'w'· · ..
--C..V· .
r
11-1 . General.
CHAPTER 11 SHOP SETS
The shop sets consists of 10 individual shelters: a supply office, mechanical repair shop, electrical repair shop, preservation and packaging shop, three type I repair parts
..._, shops, and three type II repair parts shops.
11-2. Supply Office.
The supply office provides the facilities and contains the l,._J materials for direction and control of OS and GS mainte·
nance operations. The supply office contains two bookracks, a bulletin board, a card file, a fi!e safe, office desk and chair, storage cabinet, visual card index file, and type· writer.
11-3. Mechanical Repair Shop.
The mechanical repair shop is used by maintenance personnel to support the OS and GS maintenance capability within the using organization. Tools in the shop are used to perform maintenance operations such as grinding, drilling, lubricating, straightening or bending, repairing stripped tapped holes, replacing helicoil inserts, painting, riveting, and removing and installing press-fit pieces. The shop contains a mechanical shop tool set, mechanical and structures tool set, hydraulic jack tool set, pressure gage tester, torque analyzer tool set, pneumatic maintenance I test set, and hydrostatic tester.
11-4. Electrical Repair Shop.
The electrical repair shop is used by maintenance personnel to support the OS and GS maintenance capability within the using organization. Test equipment and tools in the shop are used to troubleshoot and repair electrical assemblies, subassemblies, and chassis. The shop contains an electrical shop tool set, electrical cable insulation repair kit, cable tester and adapters, and digital repair tool set. Table 11 • l lists the test equipment that is stored but not used in the electrical repair shop.
C2 11-3
11-5. Preservation and Packaging Shop. The preservation and packaging shop provides the facilities and contains the materials required for processing or deprocessing items of equipment for shipment and storage.
I The shop contains common tools, a steel strapping dis- "-"' penser, hand steel strapping tensioner, hand steel strap-ping sealer, an oven, electric hand sealer, portable air extractor, stencil cutting machine, and stencil applicator.
11-6. Type I Repair Parts Shop. The type I repair parts shop provides storage facilities for small items such as spare printed circuit cards, resistors, and capacitors.
11-7. Type II Repair Parts Shop.
The type II repair parts shop provides storage facilities for spare assemblies, subassemblies, and chassis used to repair the.missile and ground support equipment.
11-8. Tabulated Data.
Power requirements: Voltage .............................. 120/208v, 3-phase, 400-Hz
28v de {electrical and mechanical repair shops)
Current drain ............ 30 amp average, 60 amp maximum
Air conditioner {except type I and II '-' repair parts shops): Power input ................ 208v, 3-phase, 400-Hz at 40 amp Output ........................................................ 50,000 Btu
11-4 Cl
r \ Table 11·1. Test Equipment Stored but Not I Used in Electrical Repair Shop
Nomenclature Reference No. TM reference '.-'
Battery test actuator 11028283 9-1410-375-35 Cable shield resist· 11039161 9-1400-377-34
ance test set Cable tester AN/GSM-45 9-1430-380-14
9-1400-377-34 ~ Case vent safe and
arm test set 11028637 9-1410-375-35
EL Electrical circuit 11039251 9-1440-380-14 test set
Electrical filters 11036000 9-1427-380-34/1 test set 9-1440-380-14
\.I 9-1400-377 .34 Exploding bridge- 11028557 9-1410-375-34/1
wire test set Guided missile elec- 10560776 9-1410-375-34/1
trical circuit test set
Igniter circuit tester 10055154 9.4935.379.34 Low resistance 11036032 9-1430-380-14
ohmmeter test set 9-1400-377-34
C4 11-5
.... .... °' n
18
8.5
0 I
N.
:I (4
.79
M)
14
------
!~9!
~ ~·----~
(4, .. M
) -·-1
8
1.3
8 I
N.
~L==:=::::
===I=:::::
::!===~:!.
...] M
)
~84.75 I
N.-
--..
i L
12
.15
Ml
I
urTA~Z
I PO
INT
S (T
YP
4 P
LA
CE
S)
1. 7
5 IN
• .-
----
-++
-(0
. 04
M)
TY
P
NO
TE
S:
29. 5
0 IN
. -,
....
_i..
,.~.
....
,_;.
...-
~-(0
.75
M)
~
TY
P
BE
AR
ING
SU
RFA
CE
B
EA
RIN
G S
UR
FAC
E 1
40
.50
IN
. (3
.57
M)
X
14
6,5
0 I
N.
(3. 7
2 M
) X
1.1
2 I
N.
(0,0
3 M
)
(, 1
. M
AX
LO
AD
S L
IFT
11
, 000
LB
(4
,98
9.6
KG
) A
NY
DIB
EC
TIO
N.
TIE
DO
WN
10
, 000
LB
(4,
53
6.0
KG
) A
NY
Dm
EC
TIO
N.
2.
AP
PR
OX
IMA
TE
GR
OSS
WE
IGH
TS.
P
RE
SE
RV
AT
ION
&
PA
CK
AG
ING
-5
,30
3 L
B (
2,4
05
KG
).
SU
PP
LY
OF
FIC
E -
5,77
2 L
B (
2,6
39
KG
).
RE
PA
IR P
AR
TS
I -
6,0
86
LB
(2
,76
0 K
G).
R
EP
AIR
PA
RT
S I
I -5
,65
7 L
B (
2,5
63
KG
).
EL
EC
TR
ICA
L R
EP
AIR
-4
,50
2 L
B (
2,0
42
KG
).
ME
CH
AN
ICA
L R
EP
AIR
-5
,37
6 L
B (
2,4
39
KG
).
1.1
2 I
N.
(0.0
3 M
)
Fig
ure
11
-1.
Typ
ical
sho
p se
t sh
elte
r ph
ysic
al d
ata.
( {
( {
FS
NB
·3A
I
{
\ ~
CHAPTER 12 POWER STATION EQUIVALENT
(CONTENTS)
Item Reference Page
AC generato r set physical data .... .... .. Fig. 12-2 12-5 Facilities d istribution trailer physical
data .. ............ ............................. . Fig. 12·1 12-4 General ......................................... . Par. 12· l 12-3 Tabulated data ....... .................... .... . Par. 12-2 12-3
II
12-1
CHAPTER 12 POWER STATION EQUIVALENT
\.,.I 12-1. General. The power station equivalent (PSE) consists of one facilities distribution trailer and two 45-kw ac generator sets.
12-2. Tabulated Data.
a. Facilities Distribution Trailer.
Weight ............................................. 5,405 lb (2,452 kg) I Motor rating ............................ 15 hp at 6,000 rpm, 208v,
400 Hz, 3-phase DC generator rati"ng ..................... 300 amp, 30v de, 5,700
to 6,300 rpm Voltage adjustment range ................................ 26 to 34.5v Regulation at constant load .................................... ±0.5% Air compressor discharge pressure ................... 3,000 psig Air storage bottle volume ................................ 2,570 cu in.
( 42, 148 cu cm) Air storage bottle operating pressure ................. 3,000 psig
b. AC Generator Set.
Weight (includes 58Wl) .................... 6,630 lb (3,007 kg) Generator set ........................... Diesel-engine-driven 45 kw
C3 12-3
... N Ja.
n w
(
TIE
DO
WN
----
16
8.5
IN
. _
PO
INT
(T
YP
, 14-
-114
. 3 I
N.
(4.2
8 M
)
NO
TE
S:
BO
TH
SID
ES
)'
(2. 9
0 M
)
I 8
8. 0
IN
. ·-
--,
l -(
2.24
M)
I
1. W
EIG
HT
: 5
,40
5 L
B (
2,4
52
KG
).
2.
MA
X T
IEO
OW
N L
OA
D:
5,0
00
LB
(2
,26
8 K
G)
IN A
NY
DIR
EC
TIO
N.
I I
I 1
9.
0 IN
. I
33. 5
IN
. (0
. 48
M)
I (0.
85
M)
,, I
~
LIF
T A
ND
TIE
DO
WN
PO
INT
(2
PL
AC
ES
AT
RE
AR
)
. 13
.G2
IN.
I I (0
,35
M) J
56
. 5 I
N,
;.o
-(1
. 44
M)
67. 0
IN
. ·-
(1.7
0 M
) ·
:
FS
NB
-GB
I
Fig
ure
12
-1.
Fac
ilitie
s d
istr
ibu
tio
n t
rail
er p
hysi
cal
dat
a.
('
{ (
( (
'\
~
n
.... N
UI
LIF
T
(
169.SIN.~
125.
5 I
N.
<4 • 31 M
) ~--
------r-
(S. l:
:: 11
, 1 RJ~Jt
69.
5 IN
. (1
.77
M)
'A'I
I
~~
· 9
3. O
IN.
I :=
J-1
(2
.36
M)
I~
+
NO
TE
S:
1. W
EIG
HT
: 6
, 630
LB
(3,
007
KG
).
2.
MA
X T
IED
OW
N L
OA
D:
5, 0
00 L
B
(2, 2
68 K
G)
IN A
NY
DIR
E C
T IO
N.
,.L
IFT
PO
INT
(T
YP
,BO
TH
SID
ES
) I
I 28
. l I
N.
59.
0 IN
.
~~~:g:~
r1=.-=-=
Eor-t--.
=~=r===
(O.,!M);
L1;~1:r.
· .
40
. 0 I
N.
(1. 0
2 M
)
17
.25
IN.
(0.4
4 M
)
99
.12
IN
, (2
.52
M)
20. 0
IN
. (O
.Sl
M)
Fig
ure
12
-2.
AC
gen
erat
or
set
phys
ical
dat
a.
FS
NB
-7A
I
r
- - ,,
Item
CHAPTER 13 VEHICLES
(CONTENTS)
Tabulated data ............... ............. ... . Tractor XM7 5 7 physical data ........... . Truck M656 physical data .... ... ........ .
Reference
Par. 13-1 Fig. 13-2 Fig. 13-1
Page
13-3 13-9 13-8
13-1
I
··~-
~ ..
'
( (
( {
( (
' ('
) w
CH
AP
TE
R 1
3
VE
HIC
LES
13
-1 •
Tab
ulat
ed D
ata
•
a.
Gen
eral
.
M6
56
X
M75
7 M
55
M5
43
W
eigh
t, em
pty
....
....
....
....
. 1
6,5
10
lb
1
6,3
80
lb
2
4,0
64
lb
3
4,4
40
lb
(7
,48
9 k
g)
(7,4
30
kg)
(1
0,9
15
kg
) ( 1
5,5
36
kg)
P
aylo
ad,
max
: O
n hi
ghw
ay ..
....
....
....
....
2
0,0
00
lb
2
0,0
00
lb
12
,00
0 lb
(9
,07
2 k
g)
(9,0
72
kg)
{5
,44
3 k
g)
Off
high
way
....
....
....
....
..
10
,00
0 lb
1
0,0
00
lb
7,0
00
lb
(4
,53
6 k
g)
(4,5
36
kg
) (3
, 17
5 k
g)
b.
Dim
ensi
ons.
M6
56
X
M75
7 M
55
M54
3 H
eigh
t: O
vera
ll ...
....
....
....
....
....
..
8.8
8 f
t 9
.79
ft
9.0
5 f
t
... (2
.71
m)
(2.9
8 m
) (2
.76
m)
w
W/c
arg
o b
ows
....
....
....
..
9.6
7 f
t w
(2
.95
m)
)
' ...
M6
56
X
M75
7 M
55
M5
43
w
.;.
W/O
car
go b
ows
..•.
....
...
8.8
8 f
t (2
.71
m)
Leng
th .
....
....
....
....
....
....
...
24
.92
ft
24
.83
ft
32
.16
ft
29
.08
ft
(7.6
0 m
) (7
.57
m)
(9.8
0 m
) (8
.86
m)
Wid
th .
....
....
....
....
....
....
....
8
.0 f
t 8
.0 f
t 8
.13
ft
8.0
3 f
t (2
.44
m)
(2.4
4 m
) (2
.48
m)
(2.4
5 m
) G
rou
nd
cle
ara
nce
...
....
....
. 1
2.0
in.
1
2.0
in.
10
.5 i
n.
11
.0 in
. (3
0.5
cm
) (3
0.5
cm
) (2
7 c
m)
(28
cm
) T
urn
ing
cir
cle
(ra
diu
s) ..
...
42
.5 f
t 4
2.5
ft
46
.5 f
t 4
6.7
ft
(12
.95
m)
( 12
.95
m)
(14
.17
m)
(14
.22
m)
Whe
elba
se .
....
....
....
....
....
. 1
2.3
3 f
t 1
2.3
3 f
t 1
7.9
2 f
t 1
4.9
2 f
t (3
.76
m)
(3.7
6 m
) (5
.46
m)
(4.5
5 m
)
c.
Pe
rfo
rma
nce
.
M6
56
X
M75
7 M
55
M
54
3
Spe
ed,
max
....
....
....
....
....
. 5
0 m
ph
5
0 m
ph
5
0 m
ph
52
mp
h
(80
km
ph
} (8
0 k
mp
h)
(80
km
ph
) (8
4 k
mp
h)
I F
ord
ing
de
pth
....
....
....
....
..
Flo
atin
g 4
0 i
n.
30
in.
3
0 i
n.
( 10
2 c
m)
(76
cm
) (7
6 c
m)
Fro
nt
win
ch:
Cap
acity
....
....
....
....
....
...
20
;00
0 l
b
20
,00
0 l
b
(9,0
72
kg
) (9
,07
2 k
g)
Cab
le l
engt
h ..
....
....
....
...
20
0 f
t 2
80
ft
n (6
1.0
m)
(85
.3 m
) w
{
('
{ (
{ {
~
( (
( (
( (
' fl
M6
56
X
M75
7 M
55
M5
43
Rec
omm
ende
d to
wed
loa
d:
On
high
way
....
....
....
....
..
Off
high
way
....
....
....
....
. .
13
,00
0 lb
3
2,0
00
lb
3
0,0
00
lb
3
0.0
00
lb I
(5,8
97
kg
) (
14
,51
5 k
g)
( 13
,60
8 k
g)
(13
,60
8 k
g)
13
,00
0 l
b
32
,00
0 l
b 1
5,0
00
lb
15
,00
0 l
b
(5,8
97
kg
) (1
4,5
15
kg
) (6
,80
4 k
g)
(6,8
04
kg
)
d.
Tire
Pre
ssur
e.
Hig
hway
....
....
....
....
....
....
. .
Cro
ss-c
ount
ry ..
....
....
....
... .
M
ud
, sn
ow,
sand
...
....
....
. .
M6
56
, X
M75
7 M
55,
M54
3
I 4
0 p
si f
ron
t -
5 5
psi
rear
7
0 p
si
30
psi
fro
nt
-3
0 p
si r
ear
35
psi
1
0 p
si f
ron
t -
10
psi
rea
r 15
psi
e.
Cap
aciti
es.
M6
56
, X
M75
7 M
55
,M5
43
C
oolin
g sy
stem
...
....
....
....
. 3
4 q
t ( 3
2.2
lite
rs)
44
qt
(41
.7 l
iters
) C
rank
case
: G
asol
ine
engi
ne ..
•...
....
..
18
qt
(17
.0 l
iters
) D
iese
l en
gine
...
....
....
... .
2
0 q
t ( 1
8.9
lite
rs)
15
qt
( 14
.2 l
iters
) O
il fi
lte
r ..
....
....
•...
....
....
....
2
qt
( 1.9
lite
rs)
Diff
ere
ntia
ls (
ea
ch) .
....
....
. 8
qt
(7.6
lit
ers
) 1
2 q
t ( 1
1.4
lite
rs)
Tra
nsm
issi
on ..
....
....
....
....
. 1
9 q
t ( 1
8.0
lite
rs)
9 q
t (8
.5 l
iters
) ... Cf
(W
10
pow
er t
ake
off
) 11
qt
( 10
.4 li
ters
) U
I (W
/po
we
r ta
keof
f)
- ~
... w °' ("
) w
(
M6
56
Tra
nsf
er
case
....
....
....
....
..
3 q
t (2
.8 l
iters
) F
uel
tan
k ..
....
. ...
....
. ...
....
..
80
ga
I ( 3
03
.2
lite
rs)
Win
ch:
XM
757
3 q
t (2
.8 l
iters
) 1
60
gal
(6
06
.4
lite
rs)
M55
, M
54
3
5.2
5 q
t ( 5
.0 l
iters
) 7
8 g
al (
29
5.6
lit
ers
)
Fro
nt .
....
....
....
....
....
....
. .
Rea
r ...
....
....
....
....
....
....
. 6
.75
qt
(6.4
lite
rs)
6.7
5 q
t (6
.4 l
iters
) 2
.6 q
t (2
.46
lite
rs)
3. 7
5 q
t ( 3
.5 l
iters
) 3.
75
qt
(3.5
lite
rs)
3 q
t (2
.8 l
iters
)
f. M
54
3 B
oom
. N
ote
Insu
re t
ha
t M
54
3 e
ngin
e rp
m i
s 1
,60
0±
50
(n
o·lo
ad
) w
hen
oper
atin
g bo
om.
Ro
tati
on
....
....
....
....
....
....
..
27
0 °
Ele
vatio
n..
....
....
....
....
....
...
0°,
15
°, 3
0°,
40
° B
oom
cap
acity
(2
-pa
rt h
ois
t lin
e):
Rad
ius
(ft)
18
17
1
6
15
1
4
13
(i
{
o 0
Ele
vatio
n
WI o
utr
igg
ers
4,0
00
lb
( 1
,81
4 k
g)
4,2
50
lb
( 1
,92
8 k
g)
4,5
50
lb
(2
,06
4 k
g)
5,0
00
lb
(2
,26
8 k
g)
5,6
00
lb
(2
,54
0 k
g)
6,3
00
lb
(2
,85
8 k
g)
{
WI 0
out
rigge
rs
3,0
00
lb
( 1,3
61
kg
) 3
,20
0 l
b ( 1
,45
2 k
g)
3,5
00
lb
( 1
,58
8 k
g)
3,8
00
lb
(1
,72
4 k
g)
4, 1
00
lb (
1,8
60
kg
) 4
.6r
lb (
2.0
87
t~)
' ~
{ {
( (,
( {
~
n ...,,
Rad
ius
(ft)
W
I ou
trig
ge
rs
WI O
out
rigg
ers
12
7
' 15
0 l
b (
3,2
43
kg)
5
,10
0 l
b (2.~13 k
g)
11
8,4
00
lb
(3
,81
0 k
g)
5,8
00
lb
(2
,63
1 k
g)
10
1
0,0
00
lb
(4
,53
6 k
g)
6,7
00
lb
(3
,03
9 k
g)
15
° E
leva
tion
18
4
,20
0 l
b (
1,9
05
kg)
3
,10
0 l
b (
l,4
06
kg)
17
4
,50
0 l
b (
2,0
41
kg)
3
,45
0 l
b (
1,5
65
kg)
1
6
4,9
00
lb
(2
,22
3 k
g)
3,6
50
lb
( 1
,65
6 k
g)
15
5
,35
0 l
b (2
,42
7 k
g)
4,0
00
lb
( 1,8
14
kg)
1
4
6,0
00
lb
(2
,72
2 k
g)
4,3
50
lb
( 1
,97
3 k
g)
13
6
,80
0 l
b (
3,0
04
kg)
4
,85
0 l
b (
2,2
00
kg)
1
2
7,8
00
lb
(3
,53
8 k
g)
5,5
00
lb (
2,4
95
kg)
11
9,
10
0 l
b (
4, 1
28
kg)
6
,20
0 l
b (
2,8
12
kg)
1
0
10
,00
0 l
b (
4,5
36
kg)
7
,10
0 l
b (3
,22
1 k
g)
30
° E
leva
tion
.... w
18
4
,95
0 l
b (
2,2
45
kg
) 3
,70
0 l
b (
1,6
78
kg)
~
17
5
,45
0 l
b (
2,4
72
kg)
3
,95
0 l
b (
1,7
92
kg)
....
~
~
.... w a.
Rad
ius
(ft)
W
I out
rigg
ers
W/O
out
rigg
ers
N
16
6
,05
0 l
b (
2,7
44
kg
) 4
,30
0 l
b (
1,9
50
kg)
1
5
6,7
50
lb
(3
,06
2 k
g)
4,7
50
lb
(2
,15
5 k
g)
14
7
,50
0 l
b (
3,4
02
kg
) 5
,30
0 l
b (
2,4
02
kg)
1
3
8,6
50
lb
(3
,92
4 k
g)
6,0
00
lb
(2
,72
2 k
g)
12
1
0,2
50
lb
(4
,64
9 k
g)
6,8
00
lb
(3
,08
4 k
g)
11
10
40
° E
leva
tion
18
6
,30
0 l
b (
2,8
58
kg
) 4
,60
0 l
b (
2,0
87
kg
) 1
7
6,9
50
lb
(3
,15
3 k
g)
5,0
00
lb
(2
,26
8 k
g)
16
7,
SQ
O l
b (
3,5
38
kg
) 5
,50
0 l
b (
2,4
95
kg
) 1
5
8,9
00
lb
(3
,23
7 k
g)
6,1
00
lb
(2
,76
7 k
g)
14
1
0,2
00
lb
(4
,62
7 k
g)
6,7
50
lb
(3
,06
2 k
g)
13
1
1,5
00
lb
(5
,21
6 k
g)
7' 5
00
lb
( 3
,40
2 k
g)
12
11
1
0
n ~
\ {
{ (
{ (
('
/
(') ~ ... w :..,
( (
( (
{ (
g.
Veh
icle
Wei
ght
With
Pay
load
(A
ppro
xim
ate)
. M
55
W/1
st
stag
e in
con
tain
er .
....
....
....
....
....
....
....
....
....
....
....
....
....
.. 3
2,7
93
lb
( 1
4,8
74
kg
) M
55
W/2
nd
sta
ge a
nd g
uida
nce
sect
ion
in c
onta
iner
s ..
....
....
....
....
...
33
,48
0 l
b (
15
,18
6 k
g)
M5
5 W
/wa
rhe
ad
sec
tion
in c
onta
iner
....
....
....
....
....
....
....
....
....
....
....
. 2
7, 1
06
lb (
12
,29
5 k
g)
M6
56
W/P
TS
·PS
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
.. 2
4,7
47
lb
(1
1,2
25
kg)
M
65
6 W
/BC
C .
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
. 2
7,1
90
lb
( 1
2,3
33
kg
) M
65
6 W
/RT
S ..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
~ 2
2,0
30
lb
(
9,9
92
kg)
X
M7
57
and
EL
W/m
issi
le ..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
46
,54
6 l
b (
21
,11
3 k
g)
XM
75
7 a
nd S
CTS
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
. 3
3,4
96
lb
(1
5,1
93
kg)
..., I I )
... w
Co
(
TIE
DO
WN
PO
INT
S A
ND
LIM
IT L
OA
DS
TIE
DO
WN
I
LIM
IT L
OA
DS
I
Tll
HU
I
(TY
P,
RO
Tll
S
IDE
S)!
6
,00
0 L
B (
2,7
21
.6 K
G)
AN
Y D
lllE
CT
ION
m
AN
D n
(T
YP
, R
OT
H S
IDE
S)
I 15
,0U
U L
B (
6 8
04
KG
) A
NY
D
IHE
CT
ION
HO
IST
PO
INT
S
45
,00
0 L
B (
20
,41
2.0
KG
)
TIE
DO
WN
(P
INT
LE
) 2
0,0
00
LB
(9
,07
2.0
KG
) C
AP
AC
ITY
CA
PA
CIT
Y
K?~ !'
1 ll6
.0IN
. IT
I (2
.95
M)
AX
LE
F
I
E
D
' I
r· (~
~2~~
> __
,..,. _
__....
i _-+l--.
.;.·-.....
,i 5
8.0
IN.
: I
148
OIN
~
(l.4
7 M
)•
206• 0
IN.
(3.7
6 M
) •
(S.2
3 M
) 2
99
IN
.
58
.0 I
N.
(l.4
7 M
)
NO
TE
S:
(7 .5
9 M
) 1
. W
EIG
HT
: 1
6,2
76
LH
(7
,37
0 K
Gl
3.
TU
RN
ING
KA
DIU
S:
42
.5 F
T (
12
.95
M).
2.
AX
LE
LO
AD
S:
C&
D -
2,3
52
LB
(1
,06
8 K
G)
l!:A
Cll
E
&F
-5
,78
6 L
R (
2,6
25
KG
) E
AC
H
('1
Figu
re 1
3-1
. Tr
uck
M6
56
phy
sica
l d
ata.
( (
(
10
6.5
IN
. (2
.71
M
)
80
.0 I
N.
(2,0
3M
)
FS
NB
-12
(
"' _,)
(') .... w
ID
( (
( (
HO
IST
PO
INT
S
45
,00
0 L
B
(2,0412KGl~
I .'
I
CA
PA
CIT
Y
m T
IED
OW
N
(PIN
T L
E)
I l'f
===r
i!t:
=~J::
l\
(
20
,00
0 L
B..
., I
(9,0
72
KG
) ...
....
I ...
......
I
>..
I ,,.
......
., .'?
.:-' .
.......
I >_
J ,,.....
..._
I C
AP
AC
ITY
+>-L+----+--
-,f"
-:-"
""t-
-'--
~ A
XL
E F
I
AX
LE
E
I~ .1
. 9
0.0
!N ... ,.
I .. ,
I I
I (2
.29
M)
I I
58
.0 I
N.
• 1
48
.0 I
N.
• ( 1
.4?
M)
(3.1
6 M
) 58
.0 I
N.
( 1.4
? M
) _
___
__
_ 20
6.0
IN~.------
(5.2
3 M
)
~---------~
298
.0IN. _
__
__
__
_ ,...
(7
.57
Ml
TIE
DO
WN
PO
INT
S A
ND
LIM
IT L
OA
DS
N
OT
ES
: I.
WE
IGH
T:
16,9
66 L
B (
7 ,6
55
KG
).
2.T
UR
NIN
G R
AD
IUS
: 4
2.5
FT
(1
2.9
5 M
). 3
. A
XL
E L
OA
DS
: C
&
D-2
,29
? L
B (
1,0
42
KG
) E
AC
H.
E &
F
-6
,186
LB
(2
,80
6 K
G)
EA
CH
.
TIE
DO
WN
J
LIM
IT L
OA
DS
I T
HR
U I
(T
YP
, I 6
. 000
LB
(2
, 721
. 6 K
G)
BO
TH
SID
ES
) A
NY
DIR
EC
TIO
N
m A
ND
n (
TY
P,
115.
000 L
B (
6. 8
04. 0
KG
) B
OT
H S
IDE
S)
AN
Y D
IRE
CT
ION
FS
NB
-llA
I
Fig
ure
13
-2.
Tra
cto
r X
M7
57
phy
sica
l d
ata.
r
CHAPTER 14 PUBLICATIONS
(CONTENTS)
Item
Forms ......................... .. .... . ... . ........ . Other publications ....................... ... . PERSHING la technical manuals .. .... .
Reference
Par. 14-1 Par. 14-3 Par. 14-2
Page
14-3 14-6 14·3
14-1
I
r CHAPTER 14
PUBLICATIONS
~ 14-1. Forms. DA Form 2028
DA Form 2404
DA Form 2415
Recommended Changes to DA Technical Manuals Parts Lists or Supply Manual 7, 8, or 9
Equipment Inspection and Main· tenance Worksheet
Ammunition Condition Report
14-2. PERSHING la Technical Manuals.
'.-I a. Azimuth Laying Set.
TM 9-1430-378-20P TM 9· 1430-378-34P TM 9-1430-381-14
b. Azimuth Laying Training Set.
TM 9-6920-378-20P TM 9-6920-378-34P TM 9-6920-381-14
c. Battery Control Central.
TM 9-1427-381-14 TM 9-1430-383-20P TM 9-1430-383-34P
d. Erector-Launcher.
TM 9-1440-380-14 1..,.1 TM 9-1440-380-20P
TM 9-1440-380-34P
e. EL Cable Mast.
TM 9-1440-380-14 TM 9-1440-381-20P
'..,/ TM 9-1440-381-34P
f. EL Electrical Circuit Test Set.
TM 9-1430-380-14 TM 9-1440-380-14
L-1 TM 9-4935-385-20P ....... TM 9-4935-385-34P
C3 14-3
I
I
I
I
I
I
g. Handling Equipment and Mounting Sets.
TM 9-1450-379-20P I TM 9-1450-379-34P
TM 9-1450-380-14 TM 9-1450-380·20P I TM 9-l 450-380-34P
h. Missile.
TM 9-1410-375-12 TM 9-1410-375-20P TM 9-1410-375-34/1 TM 9-1410-375-34/2 TM 9-1410-375-35
I TM 9-1410-375-34P
i. Missile Training Set.
TM 9-6920-375-20P
I TM 9-6920-375-35P TM 9·6920-382-14
j. Power Distribution System.
TM 9-1430-380-14 TM 9-1430-380-20P
I TM 9-1430-380·34P TM 9-1430-381-20P
I TM 9-1430-381-34P
k. Power Station.
LO 5-1450-202-12 TM 5-1450-202-12 TM 5-1450·202-20P TM 5-1450-202-34 TM 5-1450-202-35P
I. Power Station Equivalent.
LO 5-1450-203-12 TM 5-1450-203-12 TM 5-1450-203-20P TM 5-1450-203-35 TM 5-1450-203-35P
m. Radio Terminal Set.
TM 11-5820-469·10 TM 11-5820-469-20 TM l l ·5820-469-20P TM 11-5820-469-35 TM 1 l-5820·469-35P TM 11-5820-610-15
14-4 C3
n. Shipping and Storage Containers. I TM 9·8140-375-20P TM 9-8140-37 5-24 TM 9-8140-375-34P
o. Shop Sets.
TM 9-1400-377-34 TM 9-1450-376-34P TM 9-1450-377-34P TM 9.4935.373.34p TM 9.4935.379.34p TM 9-4935-380-34P TM 9-4935-38 1-34P
p. System.
LO 9- 1400-37 5-20
TB 750-236
TM 9-1400-379-15
TM 9-1425-380-L
TM 9-1425-380-10
TM 9-1425-381-10
TM 9-1425-381-10/ 2
TM 9-1425-381- 10/ 3
TM 9-1425-381-10/4
TM 9-1425-381-10/ 5
TM 9-1425-381 -10/ 6
TM 9-1425-38 1-10/7
TM 9· 1425-381·10/8
TM 9-1425-381·10/9
q. Test Stations.
TM 9-1425-380-24
C4
Lubrication instructions
Calibration Requirements for the Ma intena nee of Army Materiel
Storage, Surveillance, Preparation for Shipment, and Demoli· tion to Prevent Enemy Use
List of Applicable Publications
Description of the PERSHING la Field Artillery Missile System
Firing Position Procedures
Operators Manual for Supervisor
Operators Manual for EL OP
Operators Manual for Crewman 1
Operators Manua l for Crewman 2
Operators Man ua I for Crewmen 3, 4, 5, and 6
Opera tors Manual for PTS and PS OPS
Opera tors Manual for HLT, VL T, and OST OPS
Opera tors Manual for CAS and MSL Handlers
Functional Diagram s and Tactica l Countdown Program Data
14-5
r TM 9-1425-381-34 Functional Diagrams for PTS Com
puter and Electronic Circuit Plug-In Unit Test Set
TM 9-1427-380-12/1
TM 9-1427-380-12/2
TM 9-1427-380-20P
TM 9-1427-380-34/1
I TM 9-1427 -380-34/2
TM 9-1427-380-34P
TM 9-1430-385-20P
I TM 9-1430-385-34P
TM 9-4935-382-34P
PTS
PTS
PTS and SCTS
PTS
Wiring Data for PTS
PTS
Computer Assembly
Computer Assembly
SCTS
TM 9-4935-385-14/1 SCTS
TM 9-4935-385-14/2 SCTS
TM 9-4935-385-14/3 Equipment Tested With SCTS
I TM 9-4935-385-14/4 Wiring Data for SCTS
r. Tool Sets.
SC-4935-95-CL-A76
SC-4935-95-CL-A77
SC-4935-95-CL-A78
SC-4935-95-CL-A79
SC-4935-95-CL-ABO
SC-5180-95-CL-A44
SC-5 l 80-95-CL-A45
s. Vehicles.
LO 9-2320-211-12 TM 9-2320-230-10 TM 9-2320-230-20 TM 9-2320-230-20P
I TM 9-2320-230-34 TM 9-2320-230-34P TM 9-2815-210-35
t. Warhead Section. TM 9-1100-375-12
TM 9-1100-375-34
14-6
Mechanical Shop
Electrical Shop
Digital Repair
Contact Team
Mechanical and Structures
Missile Mating
Firing Position
C3
·~
r TM 9-1185-212
TM 9-1190-224-15
TM 9-l 190-224-25P
TM 9-1190-225-15
~ TM 9-l 190-225-25P
TM 9-1190-227-35
TM 9-1190-227-35P
TM 9-1190-233-35
EOD Procedures
WS Stand
WS Stand
T-4109A
T-4109A
T-4127A
T-4127A
WS Trailer
14-3. Other Publications.
AR 380-5
AR 385-10
"W AR 700-1300-8
FM 21-11
LO 9-2330-246-12
SB 38-100
TB 9-352
TB 9-6685-210-50
TB 55-46
TB 742-93-1
'..,/ TB 750-111
TB CML 49
'-..I TB ORD 38 5
C3
Safeguarding Defense Information
Army Safety Program
Malfunctions Involving Ammuni-tions and Explosives
First Aid for Soldiers
lubrication Order: Semitrailer, Van: Electronic, 6-Ton
Preservation, Packaging, and Packing Materials, Supplies, and Equipment Used by the Army
Load-Testing Vehicles Used To Handle Missiles and Rockets
Calibration Procedure for: Dial Indicating Pressure Gages ( 0 to 10,000 PSI)
Standard Characteristics for Transportability of Military Vehicles and Equipment
Inspection and Test of Air and Other Gas Compressors
Calibration Procedures for: Tester, Torque Wrench, Torque Kit Wrench, Wrench Set Torque
Reactivation of Desiccants in Bags
Standards for Oversea Shipment and Domestic Issue of Ordnance Materiel Other Than Ammunition and Army Aircraft
14-7
r TB SIG 222
TM 5-2805-204-14
TM 5-4120-222-15
TM 5-4120-259-15
I TM 5-4120-274-15
TM 5-4520-200-12
TM 5-4520-206-15
TM 5-4520-209-15
TM 5-4520-209-25P
TM 5-4520-211-14
TM 5-6115-274-12
TM 5-6115-299-10
TM 5-6115-300-10
TM 5-6115-300-15
TM 5-6115-332-12
TM 5-6115-365-15
I TM 5-6675-296-12
I TM 5-6675-296-35
TM 5-9057
TM 9-208-1
TM 9-213
TM 9-247
TM 9-1300-206
14-8
Solder and Soldering
Engine, Gasoline
Air Conditioner
Air Conditioner
Air Conditioner, PTS
Heater, Duct Type, Portable
Heater, Duct Type, Portable
Heater, Space
Heater, Space
Heater, Space
Generator Set, Diesel Engine: 45 KW
Generator Set, Gasoline Engine: "'-"' 10 KW
Generator Set, Gasoline Engine: 5 KW
Generator Set, Gasoline Engine: 5 KW
Generator Set, Gasoline Engina: 5 KW
Generator Sets, Gasoline and Diesel Engine Driven
Theodolite W/Accessories and Tripod
Theodolite W/Accessories and"-" Tripod
Trailer Chassis, Generator
Cleaning of Ordnance Materiel
Painting Instructions for Field Use~
Materials Used for Cleaning, Pre-serving, Abrading, and Cementing Ordnance Materiel; and Related Materials Including Chemicals ._,,
Care, Handling, Preservation, and Destruction of Ammunition
C3
r
\._/
TM 9-1375-200
TM 9-2320-209-10
TM 9-2320-209-20
TM 9-2320-209-35
TM 9-2320-211-10
TM 9-2330-205-14
~ TM 9-2330-246-14
TM 9-4935-282-34
TM 9-4935-378-34
'-"TM 9.4935.379.34
TM 9-4935-380-34
TM 9-4935-381-34
TM 9-6625-331-15
C3
Demolition Materials
2-1/2-Ton, 6 x 6, Chassis, Truck
2-1/2-Ton, 6 x 6, Chassis, Truck
Cab, Chassis and Body Compo-nents for Chassis, Truck: 2-1/2-Ton,6x6
Truck, Chassis: 5-Ton, 6 x 6
Chassis Trailer: Generator, 2-1/2-Ton
Semitrailer, Van: Electronic, 6-Ton
Voltmeter, Electronic
AC/DC Differential Voltmeter
Igniter Circuit Tester
Electronic Counter
Oscilloscope
Test Set, Electrical Cable: AN/ GSM-45
14-8.1/ ( 14·8.2 blank)
I
TM 9-6625-236 1-14
TM 9-6625-2362-12
TM 9-6625-2362-34
TM 9-8210
TM 10-269
TM 11 -530
TM 11 -5805-201-12
TM 11-5805-20 1-35
TM 11-5805-262-12
TM l l -5805-262-20P
TM 11 -5805-262-35
TM l 1-5805-262-35P
TM 11 -5815-205-15
TM 11 -5820-284-15
TM 11 -5820-348-15
TM 11 -5820-40 1-10
TM 11 -5820-4 01-20
TM 11-5820-401-35
TM 11-5820-477-12
TM l 1-5820- 477 -20P
TM 11-5820-477-35
TM ll-5965-222-15P
TM 11-5965-231-15P
TM 11-5965-257-15
TM 11 -5965-2 62 -13
TM 11 -6625-2 03-12
TM l l -6625-203-20P
TM 11-6625-203-35
TM l l -6625-203-45P
TM 11-6625-239-12
Cl
Voltmeter, Electronic
Oscilloscope, Vol II
Oscilloscope, Vol I
2-1/ 2-Ton, 2-Wheel Generator Chassis Trailer
General Repair for Canvas and Webbing
Installa tion Practices for Aircraft Electr ic and Electronic Wiring
Telephone Set TA-312/ PT
Telephone Set TA-312/ PT
Switchboard, Telephone
Switchboards, Telephone
Switch boards, Telephone
Swi tchboards, Telephone
Teletypewriter Central Office AN/ MGC-17
Radio Receiving Set AN / GRR-5
Antenna Equipment RC-2 92
Radio Sets
Radio Sets
Radio Sets
Radio Set Control Groups
Radio Set, Control Group
Radio Set Control Groups
Loudspeaker , Dynamic
Headset, Electrical
Handset
Headset-M icrophone
Multimeter
Multimeter
Multimeter
Multimeter
Electronic Mu ltim ete rs
14-9
TM l l-6625-239-20P
TM 11-6625-239-35
TM l l -6625-239-35P
TM 38-230
TM 38-750
14-10
Electronic Multimeters
Electronic Multimeters
Electronic M u ltimeters
Preservation, Packaging, and Packing of Mi l itarySuppliesand Equipment
Army Equipment Record Procedures
Cl
CHAPTER 15 CONVERSION TABLES
TO CONVERT INTO MULTIPLY BY
A acres sq feet 43,560.0 acres sq meters 4,047.0 acres sq miles l. 562x10 -3
acres sq ya rds 4,840.0 acre.feet cu feet 43,560.0 acre.feet gallons 3.259 x 105
amperes/sq cm amp/sq in . 6.452 amperes/sq cm amp/ sq meter 1 o• amperes/ sq in. amp/sq cm 0.1550 amperes/sq in. amp/sq meter 1,5 50.0 amperes / sq meter amp/ sq cm 10" ' amperes / sq meter amp/ sq in . 6.452x 10-• ampere-hours coulombs 3,600.0 ampere-ho urs fa radays 0 .0373 1 ampere-turns gilberts 1.257 ampere-turns/ cm am p-turns/in. 2.540 ampere-turns/ cm amp-turns / meter 100.0 ampere-turns/cm gilberts/cm 1.257 ampere-turns/ in. amp-tu rn s/ cm 0.3937 ampere-turns / in. amp-turns/ meter 39.37 ampere-turns/ in . gi lberts/ cm 0.4950 ampere-turns/ amp-turns/cm 0.01
meter ampere-turns/ am p-turns/in. 0.0254
meter ampere-turns / gil berts/cm 0. 01 257
meter atmospheres cm of mercury 76.0 atmospheres ft of water (at 33.90 -
4°C) atmospheres in. of mercury (at 29.92
0°c) atmospheres kg / sq cm 1.0333 atmospheres kg/sq meter 10,332.0 atmospheres pounds/sq in. 14.70 atmospheres tons /sq ft 1.058
15-1
I
r TO CONVERT INTO MULTIPLY BY
B Btu ergs 1.0550 x 1010
Btu foot-lb 778.3 Btu gram-calories 252.0 Btu horsepower-hr 3.93lx10-4
Btu joules 1,054.8 Btu kilogram-calories 0.2520 Btu kilogram-meters 107.5 Btu kilowatt-hrs 2.928X 10 -4
Btu/hr foot-pounds/sec 0.2162 Btu/hr gram-cal/sec 0.0700 Btu/hr horsepower-hr 3.929x 10-4
Btu/hr watts 0.2931 Btu/min foot-lb/sec 12.96 Btu/min horsepower 0.02356 Btu/min kilowatts 0.01757 Btu/min watts 17.57 Btu/sq ft/min watts/sq in. 0.1221
c calories, gram Btu (mean) 3.9685x 10-3
(mean) centigrade Fahrenheit (C 0 x9/5)+32 centigrams grams 0.01 centiliter ounce fluid (U.S.) 0.3382 centiliter cubic inch 0.6103 centiliter drams 2.705 centiliters liters 0.01 centimeters feet 3.281x10-2
centimeters inches 0.3937 WI centimeters kilometers 10-s centimeters meters 0.01 centimeters miles 6.214X 10-6
centimeters millimeters 10.0 centimeters mils 393.7 centimeters yards 1.094x 10-2 '-'. centimeter -dyn es cm-grams i.02ox10-3
centimeter-dynes meter-kg 1.020xlo-a centimeter-dynes pound-feet 7.376x10-a centimeter-grams cm-dynes 980.7 centimeter-grams meter-kg 10-5
centimeter-grams pound-feet 7.233X 10 •5 _,
centimeters of atmospheres 0.01316 ~
mercury centimeters of feet of water 0.4461
mercury
15-2
~
TO CONVERT INTO MULTIPLY BY
centimeters of kg/sq meter 136.0 mercury
centimeters of pounds/sq ft 27.85 '.II' mercury
centimeters of pounds/sq in. 0.1934 mercury
centimeters/ sec feet/min 1.1969 centimeters/ sec feet/sec 0.03281
~ centimeters/ sec kilometers/hr 0.036 centimeters/sec knots 0.1943 centimeters/ sec meters/min 0.6 centimeters/ sec miles/hr 0.02237 centimeters/ sec miles/min 3.728x 10-4
centimeters/sec/ feet/sec/sec 0.03281
1...,1 sec
centimeters/ sec/ km/hr/sec 0.036 sec
centimeters/sec/ meters/sec/sec 0.01 sec
centimeters/ sec/ miles/hr/sec 0.02237 sec
circular mils sq cm 5.067x10-6
circular mils sq mils 0.7854 circumference radians 6.283 circular mils sq inches 7.854x 10-1
coulombs faradays 1.036x10-5
coulombs/sq cm coulombs/sq in. 64.52 coulombs/ sq cm coulombs/sq 104
meter coulombs/sq in. coulombs/sq cm 0.1550 coulombs/sq in. coulombs/sq 1,550.0
I.._,) meter coulombs/sq coulombs/sq cm 10-4
meter coulombs/ sq coulombs/sq in. 6.452x10-4
meter cubic centimeters cu feet 3.531X10-5
1.,1 cubic centimeters cu inches 0.06102 cubic centimeters cu meters 10-6 cubic centimeters cu yards l.308X 10-5
cubic centimeters gallons (U.S. liq) 2.642x10- 4
cubic centimeters liters 0.001 cubic centimeters pints (U.S. liq) 2.113x 10-3
~ cubic centimeters quarts (U.S. liq) l.057X 10-3
cubic feet cu cm 28,320.0 cubic feet cu inches 1,728.0 cubic feet cu meters 0.02832
15·3
r \ TO CONVERT INTO MULTIPLY BY
cubic feet cu yards 0.03704 cubic feet gallons (U.S. liq) 7.48052 cubic feet liters 28.32 cubic feet pints (U.S. liq) 59.84 cubic feet quarts (U.S. liq) 29.92 cubic feet/min cu cm/sec 472.0 cubic feet/min gallons/sec 0.1247 cubic feet/min liters/sec 0.4720 cubic feet/min pounds of water/ 62.43 "'-" min cubic feet/sec million gal/day 0.646317 cubic feet/ sec gallons/min 448.831 cubic inches cu cm 16.39 cubic inches cu feet 5.787X l0-4
cubic inches cu meters l.639x 10-5 ~ cubic inches cu yards 2.143x 10-5
cubic inches gallons 4.329x10-3
cubic inches liters 0.01639 cubic inches mil-feet 1.061x105
cubic inches pints (U.S. liq) 0.03463 cubic inches quarts (U.S. liq) 0.01732 cubic meters cu cm 106
cubic meters cu feet 35.31 cubic meters cu inches 61,023.0 cubic meters cu yards 1.308 cubic meters gallons (U.S. liq) 264.2 cubic meters liters 1,000.0 cubic meters pints (U.S. liq) 2,113.0 cubic meters quarts (U.S. liq) 1,057.0 cubic yards cu cm 7.646x 105
cubic yards cu feet 27.0 "-"' cubic yards cu inches 46,656.0
cubic yards cu meters 0.7646 cubic yards gallons (U.S. liq) 202.0 cubic yards liters 764.6 cubic yards pints (U.S. liq) 1,615.9 cubic yards quarts (U.S. liq) 807.9 cubic yards/min cubic ft/sec 0.45 ~ cubic yards/min gallons/sec 3.367 cubic yards/min liters/sec 12.74
D days seconds 86,400.0 decigrams grams 0.1 deciliters liters 0.1 decimeters meters 0.1
I degrees (angle) mils 17.77777
15-4 C3
TO CONVERT INTO MULTIPLY BY
degrees (angle) quadrants 0.01111 degrees (angle) radians 0.01745 degrees (angle) seconds 3,600.0 degrees/sec radians/ sec 0 .01745 degrees/ sec revolutions / min 0 .1667 degrees/ sec revolutions / sec 2 .778x io-1
dekagrams grams 10.0 dekaliters liters 10.0 dekameters meters 10.0 dyne/ cm erg/ sq millimeter 0.01 dyne/ sq cm atmospheres 9 .869x10- 1
dyne/ sq cm inch of mercury 2 .953x 10-5
at 0°C ....,, dyne/ sq cm inch of water at 4 .015 x 10-• 4°C
dynes grams l.020 x 10-1
dynes joules/ cm 10-1 dynes joules/ meter 10-5
(newtons) dynes kilograms l.020x 10- 5
dynes pounda ls 7.233X 10-5
dynes pounds 2.248x 10-5
E
em, pica inch 0 .167 em, pica cm 0.4233 erg/ sec dyne - cm / sec 1.000 ergs Btu 9.480x 10-11
ergs dyne-cm 1.0 ergs foot-pounds 7.367x io-8
ergs gram -calories 0.2389 x 10-1
ergs gram-cm i.02o x 10-1
ergs horsepower-hr 3 .7250 x 10-1• ergs joules io-1
ergs kg-calories 2.389X 10-11
ergs kg-meters i.02o x io-8 ..., ergs kilowatt-hrs 0 .2778x 10-11
ergs watt-hours 0 . 2 7 7 8 x 1 o-to ergs/ sec Btu / min 5 ,688x 10-9
ergs/sec ft-lb/ min 4 .427 x l0-6
ergs/sec ft- lb/sec 7.3756x 10- 8
ergs/sec horsepower 1.341x10-10
ergs / sec kg-calories/min l.433x 10-9
ergs/sec kilowatts io-10
15-5
(
TO CONVERT INTO MULTIPLY BY
F farads microfarads 106
faraday/sec ampere (absolute) 9.6500x 104
faradays ampere·hours 26.80 faradays coulombs 9.649X 104
fathoms meters 1.828804 fathoms feet 6.0 feet centimeters 30.48 feet kilometers 3.048x 10-4
feet meters 0.3048 feet miles (nautical) 1.645x10-4
feet miles (statute) 1.894x 10-4
feet millimeters 304.8 feet mils 1.2x104
feet of water atmospheres 0.02950 feet of water in. of mercury 0.8826 feet of water kg/sq cm 0.03048 feet of water kg/sq meter 304.8 feet of water pounds/sq ft 62.43 feet of water pounds/sq in. 0.4335 feet/min cm/sec 0.5080 feet/min feet/sec 0.01667 feet/min km/hr 0.01829 feet/min meters/min 0.3048 feet/min miles/hr 0.01136 feet/sec cm/sec 30.48 feet/sec km/hr 1.097 feet/sec knots 0.5921 feet/sec meters/min 18.29 feet/sec miles/hr 0.6818 ~ feet/sec miles/min 0.01136 feet/ sec/ sec cm/sec/sec 30.48 feet/ sec/ sec km/hr/sec 1.097 feet/ sec/ sec meters/ sec/ sec 0.3048 feet/ sec/ sec miles/hr/sec 0.6818 feet/ 100 feet percent grade 1.0 ~ foot-pounds Btu 1.286x10-3
foot-pounds ergs 1.356Xl07
foot· pounds gram-calories 0.3238 foot-pounds hp-hr 5.050x 10-1
foot-pounds joules 1.356 foot-pounds kg-calories 3.24x 10-4
\w.I foot.pounds kg-meters 0.1383 foot-pounds kilowatt-hr 3.766x10-7
foot-pounds/min Btu/min 1.286 x 10-3
foot.pounds/min foot-pounds/sec 0.01667
15-6
TO CONVERT INTO MULTIPLY BY
foot-pounds/min horsepower 3 .030x l0 - 5
v foot-pounds/min kg-ca lories/m in 3.24x l o - • foot-pounds/min kilowatts 2.260x 10-5 foot-pounds/sec Btu / hr 4.6263 foot-pounds/sec Btu/ min 0.077 17 foot-pounds/sec horsepower l.8 18x 10- 3
foot-pounds/sec kg-calories/min 0.0 1945 ...,, foot-pound s/sec kilowatts 1.356 x 10 - 3
furlongs miles (U.S.) 0.125 furlongs feet 660.0
G gallons CU·Cm 3,785.0
'-"" ga llons cu feet 0.1337 gallons cu inches 231.0 gallons cu meters 3.785x10- 3
ga llons cu yards 4.951x10-3
gallons liters 3.785 gallons ( liq ga llons (U.S. liq) 1.20095
British Imp.) gallons ( U.S. ) ga llons (Imp.) 0 .83267 gallons of water pounds of water 8.3453 gallons/ min cu ft/sec 2.228x l0-3
ga llons/ min liters /sec 0.06308 gallons/min cu ft/hr 8.0208 gausses lines/sq in. 6.452 gausses webers/sq cm 10 ~ gausses we be rs/ sq in . 6.452x10 - s gausses webers/ sq meter lo-• gilberts ampe10e-turn s 0.7958 gilberts/cm amp-turns/ cm 0.7958 gil berts/ cm amp-turns/ in. 2.021 gil berts/ cm amp.turns/meter 79.58 grade rad ian 0 .01571 grams dynes 980.7 grams joules/ cm 9.807x 10-5
._ grams joules/ meter 9 .807 x 10- 3
(newtons) grams kilograms 0.001 grams milligrams 1,000.0 grams ounces (avd p) 0 .03527 grams ounces (troy) 0.032 15 grams poundals 0.0 7093 grams pounds 2.205x10-3
grams/ cm pounds/ inch 5.600xl0-3 grams/ cu cm pounds/ cu ft . 62 .43
15·7
( \ TO CONVERT INTO MULTIPLY BY
grams/cu cm pounds/cu in. 0.03613 grams/cu cm pounds/mil-foot 3.405x 10-1
"-1 grams/liter pounds/ 1,000 gal 8.345 grams/liter pounds/cu ft 0.062427 grams/liter parts/million 1,000.0 grams/sq cm pounds/sq ft 2.0481 gram -calories Btu 3.9683X 10-3 gram-calories ergs 4.1868x 107
~ gram-calories foot-pounds 3.0880 gram -calories horsepower-hr 1.5596 x 1 o-6
gram-calories kilowatt-hr 1.1630x 10-5
gram-calories watt-hr 1.1630x 10-3
gram-calories/sec Btu/hr 14.286 gram~centimeters Btu 9.297X10-8 .., gram-centimeters ergs 980.7 gram-centimeters joules 9.807x 10-5
gram-centimeters kg-cal 2.343x 10-s gram-centimeters kg-meters 10-5
H hand cm 10.16 hectograms grams 100.0 hectoliters liters 100.0 hectometers meters 100.0 hectowatts watts 100.0 henries millihenries 1,000.0 horsepower Btu/min 42.44 horsepower foot-lb/min 33,000.0 horsepower foot-lb/sec 550.0 horsepower horsepower 0.9863
(metric) (542.5 (550 ft lb/sec) -ft lb/sec) horsepower (550 horsepower 1.014
ft lb/sec) (metric) (542.5 ft lb/sec)
horsepower kg-calories/min 10.68 horsepower kilowatts 0.7457 horsepower watts 745.7 horsepower Btu/hr 33.479
(boiler) horsepower kilowatts 9.803
(boiler) horsepower-hr Btu 2,547.0 lw-1 horsepower-hr ergs 2.6845 x 1013
horsepower-hr foot-lb 1.98x106
horsepower-hr gram-calories 641,190.0
15-8
TO CONVERT INTO MULTIPLY BY
horsepower-hr joules 2.684x 106
horsepower-hr kg-ca lories 641.1 horsepower-hr kg-meters 2.737xl05
horsepower-hr kilowatt-hr 0.7457 hours days 4.167 x 10- 2
hours weeks 5.952x 10-3
hundredweights pounds 112.0
~ (long)
hundredweights tons (long) 0.05 (long)
hundredweights ounces 1600.0 (short) (avoirdupois)
hundredweights pounds 100.0 ( short)
hundredweights tons (metric) 0.0453592 (short)
hundredweights tons (long) 0.0446429 ( short)
inches centimeters 2.540 inches meters 2.540 x 10- 2
inches miles l.578x 10-5
inches millimeters 25.40 inches mils 1,000.0 inches yards 2.778X 10-2
inches of mercury atmospheres 0.03342 inches of mercury feet of water 1.133 inches of mercury kg/sq cm 0.03453 inches of mercury kg/ sq meter 345.3 inches of mercury pounds/ sq ft 70.73 inches of mercury pounds/sq in. 0.4912 inches of water ~tmospheres 2.458x 10- 3
(at 4 °C ) inches of water inches of mercury 0.07355
(at 4°C) inches of water kg/ sq cm 2.540x 10-3
(at 4°C) inches of water ounces/sq in. 0.5781
(at 4°C) inches of water po,unds / sq ft 5.204
....., (at 4°C) inches of water pounds/ sq in . 0.036 13
(at 4°C) internationa I ampere (a bsolute) 0.9998
ampere
15-9
( " TO CONVERT INTO MULTIPLY BY
international volt volts (absolute) 1.0003 international volt joules (absolute) 1.593x 10-19
international volt joules 9.654x 104
J joules Btu 9.480x 10-4
joules ergs 107
joules foot-pounds 0.7376 joules kg-calories 2.389X 10-4
joules kg-meters 0.1020 joules watt-hr 2.778X 10-4
joules/cm grams 1.020X 104
joules/cm dynes 107
joules/cm joules/meter 100.0 (ne~tons)
joules/cm poundals 723.3 joules/cm pounds 22.48
K kilograms dynes 980,665.0 kilograms grams 1,000.0 kilograms joules/cm 0.09807 kilograms joules/meter 9.807
(newtons) kilograms poundals 70.93 kilograms pounds 2.205 kilograms tons (long) 9.842x10- 4
kilograms tons (short) 1.102X 10-3
kilograms/cu grams/cu cm 0.001 meter
kilograms/cu pounds/cu ft 0.06243 meter
kilograms/cu pounds/cu in. 3.613X 10-5
meter kilograms/cu pounds/mil-foot 3.405 x 10-10
meter kilograms/ meter pounds/ft 0.6720 kilograms/sq cm dynes 980,665.0 kilograms/sq cm atmospheres 0.9678 kilograms/sq cm feet of water 32.81 kilograms/sq cm inches of mercury 28.96 kilograms/sq cm pounds/sq ft 2,048.0 kilograms/sq cm pounds/sq in. 14.22 kilograms/sq atmospheres 9.678X 10-5
meter kilograms/sq feet of water 3.281x10-3
meter
15-10
TO CONVERT INTO MULTIPLY BY
kilograms/sq inches of mercury 2.896x 10 - 3 ... meter kilogra ms/sq pou nds/sq ft 0.2048
meter kilograms/sq pounds/sq in. l .422x 10- 3
meter ki lograms/sq mm kg/sq meter 10 6 ... kilogram-calories Btu 3.968 kilogram -ca lor ies foot-pounds 3,088.0 kilogram -ca lories hp-hr l.560X 10-3
kilogram-calories joules 4, 186.0 kilogram -calor ies kg-meters 426.9 kilogram-calor ies kilojoules 4.186
...... kilogram-ca lories kilowatt-hr l.163X 10-3
kilogram meters Btu 9 .294x 10-3
kilogram meters ergs 9.804xl07
kilogram meters foot-pounds 7.233 kilogram meters joules 9 .804 kilogram meters kg-ca lor ies 2.342x 10 - 3
kilogram meters kilowatt-hr 2.723x 10 - 5
kilol ines maxwells 1,000.0 kiloliters l iters 1,000.0 kilometers centimeters 105
ki lometers feet 3,281.0 kilometers inches 3.937 x 104
kilometers meters 1,000.0 kilometers miles 0.6214 kilometers millimeters 106
ki lometers yards 1,094.0 kilometers/hr ems/sec 27.78 kilometers/ hr feet/min 54.68 kilometers / hr feet/sec 0 .9113 kilometers/ hr knots 0.5396 kilometers/ hr meters/ min 16.67 kilometers / hr miles/ hr 0.6214 kilometers/ hr I cm s/ sec/ sec 27 .78
sec ki lometers/ hr I ft/sec/ sec 0.9113
sec kilometers/hr I meters/ sec/ sec 0.2 77 8
sec kilometers/ hr I miles/ hr/sec 0.6214
sec kilowatts Btu/min 56.92 kilowatts foot-lb/ min 4.426 x 1 o• kilowatts foot-lb/ sec 73 7 .6
15-11
( TO CONVERT INTO MULTIPLY BY
kilowatts horsepower 1.341 kilowatts kg-calories/min 14.34 kilowatts watts 1,000.0 kilowatt-hr Btu 3,413.0 kilowatt-hr ergs 3.600x 1013
kilowatt-hr foot-lb 2.655x106
kilowatt-hr gram-calories 859,850.0 kilowatt-hr horsepower-hr 1.341 kilowatt-hr joules 3.6X 106
kilowatt-hr kg-calories 860.5 kilowatt-hr kg-meters 3.671X105
kilowatt-hr pounds of water 3.53 evaporated from and at 212°F
kilowatt-hr pounds of water 22.75 raised from 62 ° to 212°F
knots feet/hr 6,080.0 knots kilometers/hr 1.8532 knots nautical miles/hr 1.0 knots statute miles/hr 1.151 knots yards/hr 2,027.0 knots feet/sec 1.689
L league miles (approx) 3.0 light year miles 5.9 x 1012
light year kilometers 9.46091x1012
lines/sq cm gausses 1.0 lines/sq in. gausses 0.1550 lines/sq in. webers/sq cm 1.550x 10-9
lines/sq in. webers/ sq in. 10-s '-" lines/sq in. webers/sq meter l.550x 10-5
liters cu cm 1,000.0 liters cu feet 0.03531 liters cu inches 61.02 liters cu meters 0.001 liters cu yards l.308X 10-3 l_.I liters gallons (U.S. liq) 0.2642 liters pints (U.S. liq) 2.113 liters quarts (U.S. liq) 1.057 liters/min cu ft/sec 5.886X 10-4
liters/min gal/sec 4.403X 10-3
'-"'
15-12
r ' TO CONVERT INTO MULTIPLY BY
M maxwells kilolines 0.001 ....., maxwells we be rs 10-s mega lines maxwells 106
megohms microhms 1012 megohms ohms 106
meters centimeters 100.0 meters feet 3.281 ..., meters inches 39.37 meters kilometers 0.001 me~ers miles (nautical) 5.396x 10-4
meters miles (statute) 6.214X 10-4
meters millimeters 1,000.0 meters yards 1.094
.._ meters/min cm/sec 1.667 meters/min feet/min 3.281 meters/min feet/sec 0.05468 meters/min km/hr 0.06 meters/min knots 0.03238 meters/min miles/hr 0.03728 meters/sec feet/min 196.8 meters/sec feet/sec 3.281 meters/sec kilometers/hr 3.6 meters/sec kilometers/min 0.06 meters/sec miles/hr 2.237 meters/sec miles/min 0.03728 meters/sec/sec cm/sec/sec 100.0 meters/sec/sec ft/sec/sec 3.281 meters/sec/sec km/hr/sec 3.6 meters/ sec/ sec miles/hr/sec 2.237
"...; meter.kilograms cm·dynes 9.807x 107
meter·kilograms cm.grams 105
meter.kilograms pound.feet 7.233 microfarad farads 10-6
micrograms grams 10-6
microhms megohms 10-12 · microhms ohms 10-6
'-11 microliters liters 10-6
miles (nautical) feet 6,080.27 miles (nautical) kilometers 1.853 miles (nautical) meters 1,853.0 miles (nautical) miles (statute) 1.1516
"'-"miles (nautical) yards 2,027.0 miles (statute) centimeters 1.609x 105
miles (statute) feet 5,280.0
15-13
r TO CONVERT INTO MULTIPLY BY
miles (statute) inches 6.336x 104
miles (statute) kilometers 1.609 miles (statute) meters 1,609.0
~ miles (statute) miles (nautical) 0.8684 miles (statute) yards 1,760.0 miles/hr cm/sec 44.70 miles/hr feet/min 88.0 miles/hr feet/sec 1.467 miles/hr km/hr 1.609 '-"' miles/hr km/min 0.02682 miles/hr knots 0.8684 miles/hr meters/min 26.82 miles/hr miles/min 0.1667 miles/hr /sec cm/sec/sec 44.70 miles/hr /sec feet/ sec/ sec 1.467
'..! miles/hr/sec km/hr/sec 1.609 miles/hr/sec meters/ sec/ sec 0.4470 miles/min cm/sec 2,682.0 miles/min feet/sec 88.0 miles/min km/min 1.609 miles/min knots/min 0.8684 miles/min miles/hr 60.0 mil-feet cu inches 9.425x 10-6
milligrams grams 0.001 milligrams/liter parts/million 1.0 m illihen ries henries 0.001 milliters liters 0.001 millimeters centimeters 0.1 millimeters feet 3.281x10-3
millimeters inches 0.03937 millimeters kilometers l0-6
millimeters meters 0.001 '..I millimeters miles 6.214x 10-1
millimeters mils 39.37 millimeters yards l.094X l0-3
million gal/day cu ft/sec 1.54723 I mils degrees (angle) 0.05625
mils centimeters 2.540x 10-3 ~
mils feet 8.333x 10-5
mils inches 0.001 mils kilometers 2.540 X 10-8
mils yards 2.778x 10-5
minutes (angles) degrees 0.01667 '
minutes (angles) quadrants 1.852 x 10-4 '-' minutes (angles) radians 2.909X 10-4
minutes {angles) seconds 60.0
15-14 C3
TO CONVERT INTO MULTIPLY BY
0
.... ohms (inter- ohms (absolute) 1.0005 national)
ohms megohms lo- 6
ohms microhms l 06
ounces drams 16.0 ounces grams 28.349527
'- ounces pounds 0.0625 ounces ounces (troy) 0.9115 ounces tons (long) 2.790x 10- 5
ounces tons (metric) 2.835 X 10-5
ounces (fluid) cu inches 1.805 ounces (fluid) liters 0.02957 ounces (troy) grams 31.103481 ounces (troy) pounds (troy) 0.08333 ounces/sq in. dynes/ sq cm 4309 .0 ounces/sq in. pounds/sq in. 0.0625
p
parts/million grains/ U.S. gal 0.0584 parts/ mi ll ion grains/ Imp . gal 0.07016 parts/ million pounds/million gal 8.345 pints (dry) cu inches 33.60 pints (liq) cu cm 473.2 pints (liq) cu feet 0.01671 pints (liq) cu inches 28.87 pin ts (liq) cu meters 4 .732x10- 4
pints (liq) cu yards 6.189x 10-4
pints ( liq) gallons 0.125 pints (liq) liters 0.4732 .... pints (liq) quarts (liq) 0.5 pounds ounces (troy) 14.5833
(avoirdupois) poundals dynes 13,826.0 poundals grams 14.10 poundals joules/ cm 1.383 x 10-3
poundals joules/meter 0.1383 (newtons)
pounda ls kilograms 0.01410 pounda Is pounds 0.03108 pounds drams 256.0 pounds dynes 44.4823x 10 4
pounds grains 7,000.0 pounds grams 453 .5924 pounds joules / cm 0.04448
15-1 5
(
TO CONVERT INTO MULTIPLY BY
pounds joules/meter 4.448 (newtons)
pounds kilograms 0.4536 pounds ounces 16.0 pounds ounces (troy) 14.5833 pounds poundals 32.17 pounds pounds (troy) 1.21528 pounds tons (short) 0.0005 pounds (troy) grams 373.24177 pounds (troy) ounces (avdp.) 13.1657 pounds (troy) ounces (troy) 12.0 pounds (troy) pounds (avdp.) 0.822857 pounds (troy) tons (long) 3.6735 x 10-4
pounds (troy) tons (metric) 3.7324x 10-4
pounds .(troy) tons (short) 4.1143x 10-4
pounds of water cu feet 0.01602 pounds of water cu inches 27.68 pounds of water gallons 0.1198 pounds of water I cu ft/sec 2.670x 10-4
min pound-feet cm-dynes 1.356x107
pound-feet cm-grams 13,825.0 pound-feet meter-kg 0.1383 pounds/ cu ft grams/cu cm 0.01602 pounds/ cu ft kg/cu meter 16.02 pounds/cu ft pounds/cu in. 5.787x10- 4
pounds/cu ft pounds/mil-foot 5.456 x 10-9
pounds/cu in. gm/cu cm 27.68 pounds/cu in. kg/cu meter 2.768x 104
pounds/cu in. pounds/cu ft 1,728.0 'W pounds/cu in. pounds/mil-foot 9.425 x 10-5
pounds/ft kg/meter 1.488 pounds/in. gm/cm 178.6 pounds/mil-foot gm/cu cm 2.306x106
pounds/sq ft atmospheres 4.725x 10-4
pounds/sq ft feet of water 0.01602 pounds/sq ft inches of mercury 0.01414 '-' pounds/sq ft kg/sq meter 4.882 pounds/sq ft pounds/sq in. 6.944 x 10-3
pounds/sq in. atmospheres 0.06804 pounds/sq in. feet of water 2.307 pounds/sq in. inches of mercury 2.036 pounds/sq in. kg/sq meter 703.1 iW pounds/sq in. pounds/sq ft 144.0
15-16
TO CONVERT INTO MULTIPLY BY
Q
.... quadrants (angle) degrees 90.0 quadrants (angle) minutes 5,400.0 quadrants (angle) radians 1.571 quadrants (a ngle) seconds 3.24x105
quarts (dry) cu inches 67.20 quarts (liq) cu cm 946.4
""""' quarts ( liq ) cu feet 0.03342 quarts (l iq) cu inches 57.75 quarts ( liq ) cu meters 9.464x 10- • quarts (liq) cu yards l.238 x10 - 3
quarts (liq) gallons 0.25 quarts (liq) liters 0.9463 .... R
rad ians degrees 57 .30 radians minutes 3,438.0 radians quadrants 0.6366 rad ia ns seconds 2.063x 105
radians/sec d egrees/sec 57.30 rad ia ns/ sec revolutions/min 9.549 radians/ sec revolutions/sec 0.1592 radians /sec/sec rev/ min / min 573.0 radians/sec/sec rev/min/sec 9.549 radians/ sec/ sec rev/ sec/ sec 0.1592 revolutions degrees 360.0 revolution s quadrants 4.0 revolutions rad ians 6.283 revolut ions/min degrees/ sec 6.0 revolutions/ min radians/sec 0. 1047 revolutions/m in rev / sec 0.01667 revolutions/ min / radians/sec/ sec l.745x 10- 3
min revolutions/min/ rev/min/sec 0.0 1667
min revolutions/ min/ rev /sec/sec 2.778X 10- 4
....... min revolutions/ sec degrees/ sec 360.0 revolutions/ sec rad ians/sec 6.283 revolutions/sec rev/min 60.0 revolutions/ sec/ radians/sec/sec 6.283
sec revolutions/sec / rev/min/ min 3,600.0
sec revel ution s/ sec/ rev/ min/sec 60.0
sec
15- 17
~ TO CONVERT INTO MULTIPLY BY
s seconds (angle) degrees 2.778X 10-4
seconds (angle) minutes 0.01667 seconds (angle) quadrants 3.087x10-5
seconds (angle) radians 4.848x 10-5
slug kilogram 14.59 slug pounds 32.17 square circular mils l.973x 105
centimeters square sq feet 1.076x10-3
centimeters square sq inches 0.1550
centimeters square sq m~ters 0.0001
centimeters square sq miles 3.861x10-11
centimeters square sq millimeters 100.0
centimeters square sq yards 1.196x 10-4
centimeters square feet acres 2.296x 10-5
square feet circular mils l.833x 108
square feet sq cm 929.0 square feet sq inches 144.0 square feet sq meters 0.09290 square feet sq miles 3.587x10-8
square feet sq millimeters 9.290x 104
square feet sq yards 0.1111 square inches circular mils 1.273 x 106
~ square inches sq cm 6.452 square inches sq feet 6.944 x 10-3
square inches sq millimeters 645.2 square inches sq mils 106
square inches sq yards 7.716X 10-4 square kilometers acres 247.1 '-" square kilometers sq cm 1010 square kilometers sq ft 10.76x 106
square kilometers sq inches l.550x 109
square kilometers sq meters 106
square kilometers sq miles 0.3861 square kilometers sq yards 1.196X 106
square meters acres 2.471x10-4
square meters sq ems 104
square meters sq feet 10.76
15-18
TO CONVERT INTO MULTIPLY BY
square meters sq inches 1,550.0 square meters sq miles 3.861x10- 7
square meters sq millimeters 106
square meters sq yards 1.196 sq uare miles acres 640.0 squa re miles sq feet 27.88xl0 6
square miles sq km 2.590 sq uare miles sq meters 2.590x 106
square miles sq yards 3.098 x 106
squa re millimeters circular mi ls 1,973.0 square millimeters sq cm 0.01 square mill imeters sq feet 1.076x 10-5
sq uare millimeters sq inches 1.550x10-3
square mils circular mils 1.273 square mils Sq CrTI 6.452 x 10-6
square mils sq inches 10-6
square yards acres 2.066X 10- • square yards sq cm 8 ,36 1.0 square yards sq feet 9.0 square yards sq inches 1 ,296.0 square yards sq meters 0.8361 square yards sq mi les 3.288x 10- 1
square yards sq millimeters 8.36lx10 5
T tern perature absolute tempera · 1.0
c °C) +273 tu re ( °C) temperature temperature ( ° F) 1.8
(°C)+ l7.78 temperature absolute tempera- 1.0
( ° F) + 460 ture(°F) - temperature temperature ( • C) 5/ 9 (°F)-32
tons ( long) kilograms 1,016.0 tons (long) pounds 2,240.0 tons (long) tons (short) 1.120
...., tons (metric) kilograms 1,000.0 tons (metric) pounds 2 ,205.0 tons (short) kilograms 907. 1848 tons (short) ounces 32,000.0 tons (s hort) oun ces (troy) 29 ,166.66 tons (short) pounds 2,000 .0 tons (short) pounds (troy) 2,430.56 tons (short) tons ( long) 0.89287 tons (short) tons (metric) 0.9078 tons (short) kg/ sq meter 9.765.0
sq ft
15- 19
(
TO CONVERT INTO MULTIPLY BY
tons (short)/ pounds/sq in. 2,000.0 sq ft
tons of water I pounds of water I 83.333 24 hr hr
tons of water I gallons/min 0.16643 24 hr
tons of water I cu ft/hr 1.3349 24 hr
w watts Btu/hr 3.4129 watts Btu/min 0.05688 watts ergs/sec 107.0 watts foot-lb/min 44.27 watts foot-lb/sec 0.7378 watts horsepower 1.341xi0-3
watts horsepower l.360X 10-3
(metric) watts kg-calories/min 0.01433 watts kilowatts 0.001 watts (absolute) Btu (mean)/min 0.056884 watts (absolute) joules/sec 1.0 watt-hours Btu 3.413 watt-hours ergs 3.60X 1010
watt-hours foot-pounds 2,656.0 watt-hours gram-calories 859.85 watt-hours horsepower-hr 1.341x10-3
watt-hours kilogram-calories 0.8605 watt-hours kilogram·meters 367.2 watt-hours kilowatt-hr 0.001 watts (Inter- watts (absolute) 1.0002 '-' national) we be rs maxwells 108
we be rs kilolines 105
webers/sq in. gausses l.550x 107
webers/ sq in. lines/sq in. 108
webers/sq in. we be rs/ sq cm 0.1550 \_.; webers/sq in. webers/sq meter 1,550.0 webers/sq meter gausses 104
we be rs/ sq meter lines/sq in. 6.452x104
webers/sq meter webers/ sq cm 10-4
webers/sq meter we be rs/ sq in. 6.452x10-4
"wl
15-20
TO CONVERT INTO MULTIPLY BY
y
yards centimeters 91.44 'W' yards kilometers 9. 144X 10-•
yards meters 0.9144 yards miles ( nautical) 4.934x10- • yards miles (statute) 5.682 x lo-• yards millimeters 914.4
Metric Unit Prefixes
Prefixes Multiples Prefixes Multiples
tera· 1012 deci· 10-1
giga· 109 centi· 10-2
mega· 106 milli· 10- 3
myria· lo• micro· 10- 6
kilo· 103 nano- 10-9
hekto· 102 pico· 10-12
deka · 10
15-21
Centigrade-Fahrenheit Conversion Table
°F=9/5 °C+32=1.8 (°C+l7.8) °C=5/9 (°F-32)
C._F C-.F C~F C_.F
-62.2 - 80 -112.0 43.3 110 230.0 -56.7 - 70 - 94.0 46.1 115 239.0 -51.1 - 60 - 76.0 48.9 120 248.0 -45.6 - 50 - 58.0 51.7 125 257.0
-40.0 - 40 - 40.0 54.4 130 266.0 -34.4 - 30 - 22.0 57.2 135 275.0 -31.7 - 25 - 13.0 60.0 140 284.0 -28.9 - 20 - 4.0 62.8 145 293.0
65.6 150 302.0 -26.1 - 15 + 5.0 -23.3 - 10 14.0 68.3 155 311.0 -20.6 - 5 23.0 71.1 160 320.0 -17.8 0 32.0 73.9 165 329.0
76.7 170 338.0 -15.0 5 41.0 -12.2 10 50.0 79.4 175 347.0 - 9.4 15 59.0 82.2 180 356.0 - 6.7 20 68.0 85.0 185 365.0 - 3.9 25 77.0 87.8 190 374.0
- 1.1 30 86.0 90.6 195 383.0 1.7 35 95.0 93.3 200 392.0 4.4 40 ~04.0 96.1 205 401.0 7.2 . 45 113.0 98.9 210 410.0
10.0 50 122.0 101.7 215 419.0 12.8 55 131.0 104.4 220 428.0 15.6 60 140.0 107.2 225 437.0 18.3 65 149.0 110.0 230 446.0
21.l 70 158.0 112.8 235 455.0 23.9 75 167.0 115.6 240 464.0 26.7 80 176.0 118.3 245 473.0 29.4 85 185.0 121.1 250 482.0
32.2 90 194.0 126.7 260 500.0 35.0 95 203.0 132.2 270 518.0 37.8 100 212.0 137.8 280 536.0 40.6 105 221.0 143.3 290 554.0
15-22
Centigrade-Fahrenheit Conversion Table-Continued
°F=9/ 5 °C+32=1.8 (°C+l7.8) "C=5/9 (" F-32)
C-+--F C-...F C.-F C-.F
148.9 300 572.0 265.6 510 950.0 154.4 310 590.0 271.1 520 968.0 160.0 320 608.0 276.7 530 986.0 165.6 330 626.0 282.2 540 1004.0
171.1 340 644.0 287.8 550 1022.0 176.7 350 662.0 293.3 560 1040.0 182.2 360 680.0 298.9 570 1058.0 187.8 370 698.0 304.4 580 1076.0
193.3 380 7 16.0 310.0 590 1090.0 198.9 390 734.0 315.6 600 1112.0 204.4 400 752.0 326.7 620 1148.0 210.0 410 770.0 337.8 640 1184.0 215.6 420 788.0
348.9 660 1220.0 221.1 430 806.0 360.0 680 1256.0 226.7 440 824.0 371.l 700 1292.0 232.2 450 842.0 382.2 720 1328.0 237.8 460 860.0
393.3 740 1364.0 243.3 470 878.0 404.4 760 1400.0 248.9 480 896.0 415.6 780 1436.0 254.4 490 914.0 426.7 800 1472.0 260.0 500 932.0 437.8 820 1508.0
15-23
NUMBER SYSTEMS Decimal Octal Binary
Base or Radix 10 8 2
Total Symbols 10 8 2
Counting 0 0 0
l 1 1 .! 2 2 10 3 3 !! 4 4 100 5 5 101 6 6 110 7 z ill 8 10 1000 ~ 11 1001
10 12 1010 11 13 1011 12 14 1100 13 15 1101 14 16 1110 15 17 1111 16 20 10000 17 21 10001 18 22 10010 19 23 10011 20 24 10100 21 25 10101
15-24
VARIOUS RADICES (Radix-Base)
0 10 20 30 40 50 .... 90 100 1 11 2 12 3 13 4 14 5 15 6 16 7 17 8 18 9 19 29 39 49 59 99
1_l1J 20 30 40 50 Radix 2 1 21 31 41 51 Radix 3 2 12 22 32 42 52 Radix 4 3 13 23 33 43 53
4 14 24 34 44 54 Radix 6 5 15 25 35 45 55
6 16 26 36 46 56 7 17 27 37 47 57
Radix 2
00 io 100 110 1000 1010 0 1 !..!! 101 !.!..!I 1001 10111
Radix 3
00 10 20 100 110 120 200 01 11 21 101 111 121 201 02 12 w 102 112 1221 202
210 220 1000 1010 1020 21 1 221 1001 1011 1021 212 2221 1002 1012 10221
Radix 5
00 10 20 30 40 100 110 0 1 11 21 31 41 101 111 02 12 22 32 42 102 112 03 13 23 33 43 103 113 04 14 24 34 ~ 104 114
15-25
. 15-26
ANALYSIS OF NUMBERS
Decimal
982.4
2 9 = 9 x 10 10 = 9 x 100 = 900
8=8X 1 =BX 10 -80 10 10 =
0 =2X 1 = ····2 2 = 2 x 10 10 -982
4 = 4 x 10-l = 4 x 1/10 = ·····-.4 10· --
Octal
674.2
982.4
6 = 6 x 8 2 = 6 x 100 = 600 8
7 = 7 x 8 1 = 7 x 10 = --70 8
4=4X80 =4X 1 = .... 4 8
674
-1 2 = 2 x 8 8 = 2 x 1/10 = ····-.2
674.2
C4
1 = 1 x 2
0 = 0 x 2
1 = 1 x 2
1 = 1 x 2
0 = 0 x 2
Binary
10110.01
4 2 = 1 x 10000 = 10000
3 - 0 2 - x 1000 = -·0000
2 1 2 = x 100 = ----100
1 2 = 1 x 10 = ··----10
0 0 1 _ _. ____ __ o
2 = x = 10110
-1 0 = 0 x 2 2 = 0 x 1/ 10 = ··········.O
-2 1 = 1 x 2 2 = 1 x 1/ 100 = ----------.01
10 110.01
I
15-27
' .... U
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EXAMPLES OF NUMBER CONVERSIONS
Decimal to Octal
8 . 1~;:10 • ,= 5348
8 5 3 0 5
.5310 = .417 8
8
1: .24
8
.92 8
.36
Octa l to Decimal
x:7Ll68 = 19010
16
...±l... 23 x 8
184 ...±..§. 190 Answer
.648 = .812510 .5;J 8 14.00
.8 125 8 16.5
2
2 2
r .4510
2
.90 2
.80 2
.60
0 0 1 0 1 1 1 1
= .0 112
Binary to Decimal
110 = 6 10
x~~ +l
3 x2
6 +O 6 An swer
= .8 12510
15-29
DECIMAL TO OCTAL CONVERSION
Number Less Than 1 1. Multiply number of s 10.
2. The integral portion of the ·product is the MSD of the decimal number.
3. The fractional portion becomes the multiplicand for successive· multiplication.
4. Continue until sufficient places have been formed.
Convert .53 to an octal number.
Step 1 .53 8
4.24 4 MSD Step 2
Step 3 .24 8
1.92
.92 8
7.36 7
Octal Number .417
15-30
~
r DECIMAL TO BINARY CONVERSION
Numbers Less Than 1 1. Multiply the decimal number by 2. 2. The integral portion of the product becomes the MSB.
3. The fractional portion of the product becomes the multiplicand for the next operation.
4. Continue until sufficient places have been formed .
. 9125 2
1.8250 1 MSB
.8250 2
1.6500 Binary .l l lO number
.6500 2
1.3000 1
.3000 2
.6000 0 LSB
OCTAL TO DECIMAL CONVERSION
Numbers Less Than 1
1. Divide the rightmost digit by 810
.
2. Add th.e next digit to the quotient.
3. last step, divide.
4. last quotient is the answer.
Convert .648
to a decimal number.
C4
Decimal number
.8125
15-31
r Bl NARY TO DECIMAL CONVERSION
1. Use positional notation to determine the weight of each digit.
2. Add a II values.
Convert 1100.1101 toa decimal number.
1100 1101
wtx2° 0 11itx~-4 .0625
OX21
0 OX2 3
.0000
1X22
4 1X2- 2 .2500
1X23
8 1X2- l .5000
12 .8125
Decimal number 12.8125
OCTAL TO BINARY CONVERSION
1. Mentally convert each octal digit to three binary digits.
2 5 3 7
I I \ \ 010 101 011 111
BINARY TO OCTAL CONVERSION
1. Group the binary number in threes from the binary point.
2. Mentally convert each group to an octal digit.
0 1 0 1 0
010
2
101
5
Use positional values conversion.
0
+ 4
"-32
0 1 1 1 1 1
of
0
+ 2
011
3
binary
0
+ 1
111
7
numbers for mental
C4
DECIMAL TO OCTAL CONVERSION
Number Greater Than 1
1. Divide decimal number by 810
.
2. Remai nder is LSD.
3. Div ide quot ient (of step 1 ) by 810
.
4. 2nd remainder is 2nd digit.
5. Continue division unti l quotient cannot be divided again.
6. The last rema inder is the MSD.
Convert 348 to an octal number.
Stop t 8 IH!_ Step 3 8 43 4 LSD Step 2
Step 5 8 5 3 Step 4
0 5 MSD Step 6
Octal number - 534
DECIMAL TO BINARY CONVERSION
Numbers Greater Than 1
1. Divide the decimal num ber by 2. 2. Remainder is LSB.
3 . Quotient becomes dividend for next operation .
4 . Continue until the number can no longer be divided.
5. The last remainder is the MSB.
22 ~1! 2 7
2 3 2 1
0
0 LSB
0
1
1 MSB
Bina ry number 1 1100
15-33
r OCTAL TO DECIMAL CONVERSION
Numbers Greater Than 1
1. Multiply the MSD of the octal number by 810
.
2. Add the next significant digit to the product.
3. Multiply the sum by 810
.
4. The last step will be add.
5. The last sum will be the answer.
Convert 2768
to decimal number.
xl:~s +7j
23
x 8
184
+6
190
Decimal number
190
15-34
If a warhead malfunction E07 or adapter M06 is displayed on the IRI, the following procedures will be followed:
1. Stop all operations on the warhead section, immediately remove electrical power. 2. Wait 30 minutes before performing any operation on warhead section. 3. After 30 Minut es, if applicable, recapture the missile 4. Remove the warhead section from the the guidance section. 5. Test the warhead section with the 4127 A test set.
Checking to iasure that the ST-120 is caged 8W2J2 Pins W to X continuity = Caged
EMERGENCY INTERRUPT M04 G&C, MOS ADPT, E03 SAF REL-G&C, E04 ADPT, EO~ S&G-G&C MNDIST, E06 ADPT, 547 SAF REl-MNDST
G&C IN CONTADIBR 25W9J9 D (-) 25W7J7 36 (+) XlOK Infinity 25W9J9 D (+) 25W7J7 36 (-) II :r
25Wl 0Jl0 57 25Wl 0Jl0 27 " II
25W9J9 D 25W7J7 30 X16K ~ 10 ohms 25Wl0Jl0 38 25WlOJ10 56 II '"7 11 II
25W9J9 D 25W7J7 10 Xl <..10 ohms 25W9J9 F 25W7J7 9 II <. " II
25H9J9 D 25Wl0Jl0 26 II <... II "
G&C OUT OF CONTAINER 8W4J4 N (+) 8W4J4 n (-) XlOK Infinity
--SW4J4 N (-) 8W4J4 n (+) II : 1
8 W20J2 KK 8W20J2 v " !I
8W4J4 N 8W4J4 j XlG 710 ohms
r ' 8W20J2 cc 8W29J2 JJ XlO '> 10 ohms 8W4g4 N 8W4J4 K Xl .( " " 8W4J4 F 8W4J4 J " < tilt 11
8W4J4 N 8W20J2 u n < n n
'W